FCC ID: WAFAMB2520T 2.4 GHz Transceiver module

 

Annex No.4a Page 1 of 41 Functional description / Users manual Radio Transceiver Module AMB2520-T1 Manual for AMB8420 and AMB2520 Version 3.6 SW-V3.0, 3.1, 3.2 AMBER wireless GmbH Albin-Kbis-Strasse 18 D-51147 Cologne Phone: +49 2203 6991950 Fax: +49 2203 459883 E-mail: info@amber-wireless.de Internet: http://www.amber-wireless.de 8 4 3 5 6 7 Table of Contents 1 Summary.............................................................................................................................................. 4 2 Operating Modes ................................................................................................................................. 4 2.1 Transparent, Buffered Data Transfer ................................................................................................. 5 2.2 Command Mode................................................................................................................................. 5 2.2.1 Switching to the Command Mode............................................................................................... 5 2.2.2 Exiting the Command Mode ....................................................................................................... 6 2.2.3 Communication in the Command Mode ..................................................................................... 6 Addressing Modes ............................................................................................................................... 7 3.1 Monitoring Wireless Communication ................................................................................................. 7 Electrical Parameters........................................................................................................................... 7 4.1 Input Voltage ...................................................................................................................................... 7 4.2 Power Consumption........................................................................................................................... 8 4.2.1 AMB8420 .................................................................................................................................... 8 4.2.2 AMB2520 .................................................................................................................................... 8 Dimensions and Weight....................................................................................................................... 8 Pinout ................................................................................................................................................... 9 Serial Interface................................................................................................................................... 11 7.1 UART................................................................................................................................................ 11 7.1.1 Supported Data Rates .............................................................................................................. 11 7.1.2 Supported Data Formats .......................................................................................................... 11 7.2 SPI Interface .................................................................................................................................... 11 Setting the HF Parameters ................................................................................................................ 12 8.1 AMB8420.......................................................................................................................................... 12 8.1.1 "g1" Band .................................................................................................................................. 12 8.1.2 "g3" Band .................................................................................................................................. 12 8.1.3 "g4" Band .................................................................................................................................. 12 8.1.4 "g" Band .................................................................................................................................... 12 8.2 AMB2520.......................................................................................................................................... 13 Timing Parameters............................................................................................................................. 14 9.1 Reset Behaviour............................................................................................................................... 14 9.1.1 Power-On Reset ....................................................................................................................... 14 9.1.2 Reset via /RESET Pin............................................................................................................... 14 9.2 Wake-up from the Sleep Mode ........................................................................................................ 15 9.3 Latencies During Data Transfer / Packet Generation ...................................................................... 15 9.3.1 Transparent Operating Mode.................................................................................................... 15 9.3.2 Command Mode ....................................................................................................................... 16 10 Battery Operation............................................................................................................................... 16 10.1 Active Mode ................................................................................................................................... 16 10.2 Stand-By......................................................................................................................................... 16 10.3 WOR Mode .................................................................................................................................... 16 10.4 Sleep Mode .................................................................................................................................... 16 11 The Command Interface .................................................................................................................... 17 11.1 Data Transfer in the Command Mode............................................................................................ 17 11.1.1 CMD_DATA_REQ .................................................................................................................. 17 11.1.2 CMD_DATAEX_REQ ............................................................................................................. 17 11.1.3 CMD_DATAEX_IND ............................................................................................................... 18 11.1.4 CMD_DATARETRY_REQ ...................................................................................................... 18 11.2 CMD_SET_MODE_REQ ............................................................................................................... 19 11.3 CMD_RESET_REQ ....................................................................................................................... 19 11.4 CMD_SET_CHANNEL_REQ ......................................................................................................... 20 11.5 CMD_SET_DESTNETID_REQ...................................................................................................... 20 11.6 CMD_SET_DESTADDR_REQ ...................................................................................................... 20 11.7 CMD_SET_REQ ............................................................................................................................ 21 9 AMB8420/2520 Manual V3.6 Page 2 of 40 Last update: 25/3/2008 11.8 CMD_GET_REQ ............................................................................................................................ 22 11.9 CMD_SERIALNO_REQ ................................................................................................................. 22 11.10 CMD_RSSI_REQ ......................................................................................................................... 23 11.11 CMD_ERRORFLAGS_REQ ........................................................................................................ 25 12 Configuration Parameters.................................................................................................................. 25 12.1 Non-Volatile Configuration Parameters ......................................................................................... 25 12.1.1 UART_CTL ............................................................................................................................. 28 12.1.2 UART_TCTL ........................................................................................................................... 28 12.1.3 UART_MCTL .......................................................................................................................... 28 12.1.4 UART_BR0 ............................................................................................................................. 28 12.1.5 UART_BR1 ............................................................................................................................. 29 12.1.6 UART_PktMode ...................................................................................................................... 29 12.1.7 UART_PktSize ........................................................................................................................ 29 12.1.8 UART_RTSLimit ..................................................................................................................... 29 12.1.9 UART_ETXChar ..................................................................................................................... 29 12.1.10 UART_Timeout ..................................................................................................................... 29 12.1.11 UART_DIDelay ..................................................................................................................... 30 12.1.12 MAC_NumRetrys .................................................................................................................. 30 12.1.13 MAC_AddrMode ................................................................................................................... 30 12.1.14 MAC_DestNetID ................................................................................................................... 30 12.1.15 MAC_DestAddrLSB .............................................................................................................. 30 12.1.16 MAC_SourceNetID ............................................................................................................... 30 12.1.17 MAC_SourceAddrLSB .......................................................................................................... 30 12.1.18 MAC_ACKTimeout ............................................................................................................... 31 12.1.19 PHY_FIFOPrecharge............................................................................................................ 31 12.1.20 PHY_PAPower ..................................................................................................................... 31 12.1.21 PHY_DefaultChannel............................................................................................................ 31 12.1.22 PHY_CCARSSILevel............................................................................................................ 31 12.1.23 OpMode ................................................................................................................................ 31 12.1.24 MSP_RSELx ......................................................................................................................... 31 12.1.25 MSP_DCOCTL ..................................................................................................................... 32 12.1.26 WOR_Prescaler .................................................................................................................... 32 12.1.27 WOR_Countdown................................................................................................................. 32 12.1.28 WOR_RXOnTime ................................................................................................................. 32 12.1.29 CfgFlags................................................................................................................................ 33 13 Start-up .............................................................................................................................................. 34 13.1 Minimal Configuration .................................................................................................................... 34 13.2 Transfer of Large Amounts of Data................................................................................................ 34 13.3 Deployment of Several Modules, Use of Addresses, Channel Switching ..................................... 34 13.4 Use of the Low-Power Functionality .............................................................................................. 34 13.5 Minimising Latencies...................................................................................................................... 34 14 Firmware Update ............................................................................................................................... 34 14.1 Update of Earlier FW Versions (< 3.0.0) ........................................................................................ 35 15 Manufacturing Information ................................................................................................................. 36 15.1 Footprint Dimensioning Proposal ................................................................................................... 36 15.2 Soldering ........................................................................................................................................ 37 16 Version History................................................................................................................................... 38 16.1 Software ......................................................................................................................................... 38 16.2 Manual............................................................................................................................................ 38 17 References......................................................................................................................................... 38 18 Declaration of Conformity .................................................................................................................. 39 Important Information......................................................................................................................... 40 19 19.1 Exclusion of Liability....................................................................................................................... 40 19.2 Trademarks .................................................................................................................................... 40 19.3 Usage Restriction........................................................................................................................... 40 AMB8420/2520 Manual V3.6 Page 3 of 40 Last update: 25/3/2008 Abbreviations CS Checksum DC Duty cycle Relative frequency reservation period 1 Summary The AMB8420/AMB2520 module was designed as a radio submodule for wireless communication between devices like controls, remote controls, sensors etc. It offers several addressing modes and relieves the host system of radio-specific tasks such as checksum calculation, address resolution, and repetition of unacknowledged telegrams. It can be deployed wherever the wireless exchange of small data packets (up to 128 bytes) between two or more parties is required. A serial interface (UART) whose data rate and format can be adjusted flexibly is available for communicating with the host system; from SW version 3.2, a variant with SPI functionality is available. By means of the Windows program "ACC", the HF data rate can be adjusted from 4.8 to 250 kbps. Thanks to its small size and the integrated antenna, the module can easily be installed in existing systems without any external circuits. 2 Operating Modes The device can be used in the following operating modes:

1. Transparent, buffered data transfer 2. Command mode The operating mode after power-up can be configured by means of the OpMode parameter

(see 12.1.23). Upon start-up in the command mode, the module responds with the respective telegram (see 11.2). AMB8420/2520 Manual V3.6 Page 4 of 40 Last update: 25/3/2008 2.1 Transparent, Buffered Data Transfer In this mode, data is received via the serial interface and initially buffered. As soon as specific conditions are met (see 9.3), the HF telegram is generated with a preamble, checksum, and address information (optional). The number of characters transmitted in the wireless telegram in addition to the actual payload data depends on the selected addressing method and the data rate, and varies between 12 and 16 bytes (packet overhead). If required, the HF telegram can be acknowledged by the recipient module (see 12.1.12). If no acknowledgement is received, the telegram will automatically be repeated upon expiry of a timeout (see 12.1.18). The buffer size at the UART interface is 128 bytes, i.e. the maximum size of transmitted data packets is 128 bytes (payload data only, without packet overhead). As soon as the transmission of a packet has begun, the serial interface cannot receive any further data. The /RTS signal indicates that the buffer is in use. N.B.: As long as the receiver module is busy sending characters via the serial interface, wireless data reception is not possible. For example, this effect is noticeable when sending a long data packet and subsequently a short data packet. In this case, the receiver module may still be busy sending the first packet via UART or SPI, and the second packet may be lost. 2.2 Command Mode This operating mode primarily serves module configuration. It can also be used for wireless transmission of payload data. 2.2.1 Switching to the Command Mode The unit switches to the command mode when a falling edge is detected on the /CONFIG pin, or when a break signal is detected on the UART. A break condition exists if the RX input of the module is kept low for at least 10 more bits after a failure of the stop bit. Detection of both the falling edge on the /CONFIG pin and of the break signal can be disabled

(see 12.1.29). The successful switchover is acknowledged by means of a corresponding command (see 11.2). The switchover can only occur when no data is being received by wireless transmission or serial interface (approximately 100 s after /RTS goes low and indicates readiness). AMB8420/2520 Manual V3.6 Page 5 of 40 Last update: 25/3/2008 2.2.2 Exiting the Command Mode The command mode can be exited 1. by sending the corresponding command (see 11.2), 2. on detection of another falling edge on the /CONFIG pin, or 3. on detection of another break signal on the UART. This procedure is again confirmed by means of the corresponding acknowledgement. 2.2.3 Communication in the Command Mode In the Command Mode, communication with the module occurs in the form of predefined commands. These commands must be sent in telegrams according to the format described in Table 1. Start signal Command No. of data Data (var.) Checksum Table 1: Telegram Format in the Command Mode Start signal: STX = 0x02 Command: One of the predefined commands according to section 11 No. of data: Specifies the number of data in the following field of variable length and is limited to 128 in order to prevent buffer overflow. Data:

Variable number of data or parameters (maximum 128 characters) Checksum: XOR relation of the preceding fields including the start signal STX, i.e. 0x02 ^

command ^ no. of data ^ data byte 0 ... Using a specific command, data can also be sent via HF, i.e. the module can be operated entirely in the Command Mode. This is useful for realising quick channel changes, for example. If no new signal is received for UART_Timeout milliseconds (see 12.1.10) after receiving the STX signal, the unit will wait for a new start signal. AMB8420/2520 Manual V3.6 Page 6 of 40 Last update: 25/3/2008 3 Addressing Modes The following addressing modes are available:

1. No addressing (mode 0): Each module receives the transmitted HF telegram and delivers the received data to the host system via UART. No address information is transmitted in the wireless telegram. 2. 1-byte address (mode 1): The receiving module will only deliver the data to the host system via UART if the destination address configured at the sender

(MAC_DestAddrLSB, see 12.1.15) corresponds to the source address

(MAC_SourceAddrLSB, see 12.1.17) or the address 255 (broadcast address) was specified as destination address. Both the destination address and the source address are transmitted in the wireless telegram (total = 2 bytes). 3. 2-byte address (mode 2): The receiving module will only deliver the data to the host system via UART if both the destination network ID and the destination address correspond to the source addresses (MAC_SourceNetID and MAC_SourceAddrLSB, see 12.1.16 and 12.1.17) or the broadcast address 255 was specified as destination address. A total of 4 bytes of address information are transmitted in the wireless telegram. The addressing mode to be used can be set with the MAC_AddrMode parameter (see 12.1.13). N.B.: The receiver and transmitter modules must be operated in the same addressing mode!

3.1 Monitoring Wireless Communication From firmware version 3.2, the address resolution can be disabled ("packet sniffer") with bit 7 in the configuration flags (see 12.1.29). A module configured in this way will receive all data packets and forward them to the serial interface, regardless of the addressing mode. 4 Electrical Parameters 4.1 Input Voltage The input voltage of the module ranges from 2.7 to 3.6 V. In order to ensure a constant processor frequency (and UART clock rate) over the entire voltage range, the clock rate is continuously readjusted on the basis of the available watch crystal. Voltage changes during the reception or output over the serial interface can result in a change of the clock rate between two characters. N.B.: A clean supply voltage is needed for the module to function correctly. Using a 100 F blocking capacitor close to the VCC pin is a useful measure (especially when using RS232 converters or clocked DC-DC converters). AMB8420/2520 Manual V3.6 Page 7 of 40 Last update: 25/3/2008 4.2 Power Consumption 4.2.1 AMB8420 See data sheet [4]. 4.2.2 AMB2520 See data sheet [5]. N.B.: To minimise power consumption in Sleep Mode, the input signals of the module

(/CONFIG, SLEEP, TRX_DISABLE und /DATA_REQUEST) must be set to the levels defined in Table 2. Open (floating) pins result in increased power consumption. 5 Dimensions and Weight See data sheets [4] and [5]. AMB8420/2520 Manual V3.6 Page 8 of 40 Last update: 25/3/2008 6 Pinout Figure 1 Pinout Designation I/O Description VCC1 GND UTXD URXD Supply Supply voltage Supply Ground Output Output serial interface Input Input serial interface

/RESET Input

/CONFIG Input SLEEP Input TRX_DISABLE Input

/DATA_REQUEST Input A low level on this pin performs a restart of the module. Internally, this pin is connected to VCC via a 100 k pull-up resistor. Leave open if not needed. Used to switch the module to the Command Mode

(falling edge). Alternatively, this can be done by means of a UART break signal. Connect to GND if not needed. The function can be disabled (see 12.1.29). Activates the Sleep Mode (high level). Connect to GND if not needed. The function can be disabled

(see 12.1.29). Switches the HF part off (high level) as long as no data is to be sent. Connect to GND if not needed. The function can be disabled (see 12.1.29). Prompts the wireless transmission of the data received via the UART (falling edge). As long as no new data is received via UART or wireless transmission, the buffer content remains valid and can be resent by means of a new signal. Connect to GND if not needed. The function can be disabled

(see 12.1.29). Without function in the command 1 100F blocking capacitor recommended between VCC and GND in close proximity to the module AMB8420/2520 Manual V3.6 Page 9 of 40 Last update: 25/3/2008

/RTS Output mode. Ready to send (active low). When /RTS is low, data can be received via UART. /RTS goes high as soon as the UART buffer is full or when the wireless reception of a telegram is detected. From this moment, all data coming in via UART will be ignored. Timeout after falling edge: 100 s.

/DATA_INDICATE Output Goes low as soon as a valid frame is received via wireless transmission and remains low as long as the output via UART continues. Can be used to prepare a "sleeping" host system for the output of data. The delay between the rising edge and the beginning of output via UART can be configured

(see UART_DIDelay, 12.1.11). During the transmission process, this pin signals the successful acknowledgement of the wireless telegram (if such was requested, see MAC_NumRetrys, 12.1.12): in this case, /DATA_INDICATE is set to low before the falling edge of the /RTS pin and goes back high when new data is received via wireless transmission or UART, at the latest. RESERVED N.C. Currently not used. These pins must be left open (do not connect). Some of these pins are used for the optional SPI interface. Open, optional aerial connection; use only after consultation. Table 2 Pinout AMB8420/2520 Manual V3.6 Page 10 of 40 Last update: 25/3/2008 7 Serial Interface 7.1 UART 7.1.1 Supported Data Rates The data rate is adjusted by directly configuring the respective registers of the utilised microprocessor (see UART_TCTL, UART_MCTL, UART_BR0, and UART_BR1; from 12.1.1). In this way, the data rate can be adjusted freely from 0.5 to 115200 baud. As the UART speed is derived from the speed of the utilised clock quartz, there may be variations of up to 0.5%. When using the PC program "ACC", the following data rates can be selected directly via drop-

down menu:

110, 300, 600, 1200, 2400, 4800, 9600, 14400, 19200, 28800, 38400, 56000, 57600, and 115200 baud. With this selection, the three registers above are automatically set to the optimum value. Moreover, the "ACC" program also provides a dialogue for calculating any baud rates. The default baud rate of the module is 9600 (AMB8420)/38400 (AMB2520). The output of characters on the serial interface takes place with secondary priority. For this reason, short interruptions may occur between the output of individual characters (e.g. in the event of an interrupt). 7.1.2 Supported Data Formats All data formats offered by the processor are supported:

7 or 8 bits No, even, or odd parity 1 or 2 stop bits In ACC, the following data formats can be selected directly via the drop-down menu:

8n1, 8o1, 8e1, 8n2, 8o2, 8e2, 7n1, 7o1, 7e1, 7n2, 7o2, 7e2. The data format, too, can be set by directly configuring the respective microprocessor registers

(see UART_CTL, 12.1.1). The default data format is 8 data bits, no parity, 1 stop bit ("8n1"). 7.2 SPI Interface Instead of the UART interface, the module also has an SPI interface. This interface is supported from software version 3.2 (separate firmware, can be installed with the Windows program

"ACC"). See [6]. AMB8420/2520 Manual V3.6 Page 11 of 40 Last update: 25/3/2008 8 Setting the HF Parameters The HF parameters (data rate, usable frequency range, etc.) can be configured with the PC program "ACC". Depending on the configured data rate, it can also be used to change additional parameters, e.g. MAC_ACKTimeout, PHY_DefaultChannel, or PHY_FIFOPrecharge. 8.1 AMB8420 The following sections describe the permissible data rates and frequency ranges. In the factory state, the HF data rate is 38.4 kbps. N.B.: The maximum channel reservation period in the 868 MHz frequency band is subject to regulations. This period is also referred to as duty cycle (DC) and designates the maximum transmission time of a device in relation to one hour. A 1% DC, for example, permits the use of a channel for 36 seconds per hour. 8.1.1 "g1" Band This frequency band ranges from 868.0 to 868.6 MHz and permits a 1% duty cycle. 104 103 102 101 100 Channel no.

\ data rate 4.8 kbps 868.00 868.05 868.10 868.15 868.20 868.25 868.30 868.35 868.40 868.45 868.50 868.55 868.60 10 kbps 868.00 868.05 868.10 868.15 868.20 868.25 868.30 868.35 868.40 868.45 868.50 868.55 868.60 38.4 kbps 868.00 868.05 868.10 868.15 868.20 868.25 868.30 868.35 868.40 868.45 868.50 868.55 868.60 76.8 kbps 868.00 868.05 868.10 868.15 868.20 868.25 868.30 868.35 868.40 868.45 868.50 868.55 868.60 100 kbps 868.00 868.05 868.10 868.15 868.20 868.25 868.30 868.35 868.40 868.45 868.50 868.55 868.60 105 106 107 108 109 110 111 112 Table 3 Channel table "g1" band. Permissible channels are highlighted in green 8.1.2 "g3" Band This frequency band ranges from 869.4 to 869.65 MHz and permits a 10% duty cycle. The channel table will follow. 8.1.3 "g4" Band This frequency band ranges from 869.7 to 870 MHz and permits a 100% duty cycle. The channel table will follow. 8.1.4 "g" Band This frequency band ranges from 863 to 868.6 MHz and permits a 0.1% duty cycle or from 865 to 868.6 MHz with a 1% duty cycle. The channel table will follow. AMB8420/2520 Manual V3.6 Page 12 of 40 Last update: 25/3/2008 8.2 AMB2520 In the factory state, the HF data rate is 250 kbps. The module AMB2520 uses a channel spacing of approximately 500 kHz; the carrier frequency can be determined with the following formula:

Here, the channels 0 to 165 are permissible. See Table 4 for an overview of usable frequencies. F C

MHz

2400

(5.

N Channel

.0 500

) N.B.: Avoid the channels/frequencies (2405 MHz + n x 13MHz) marked in red, which merely provide a reduced range due to a property of the wireless IC. Channel no. Freq.

[MHz]

Channel no. Freq.

[MHz]

Channel no. Freq.

[MHz]

Channel no. Freq.

[MHz]

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 2400.5 2401.0 2401.5 2402.0 2402.5 2403.0 2403.5 2404.0 2404.5 2405.0 2405.5 2406.0 2406.5 2407.0 2407.5 2408.0 2408.5 2409.0 2409.5 2410.0 2410.5 2411.0 2411.5 2412.0 2412.5 2413.0 2413.5 2414.0 2414.5 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 2421.0 2421.5 2422.0 2422.5 2423.0 2423.5 2424.0 2424.5 2425.0 2425.5 2426.0 2426.5 2427.0 2427.5 2428.0 2428.5 2429.0 2429.5 2430.0 2430.5 2431.0 2431.5 2432.0 2432.5 2433.0 2433.5 2434.0 2434.5 2435.0 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 2441.5 2442.0 2442.5 2443.0 2443.5 2444.0 2444.5 2445.0 2445.5 2446.0 2446.5 2447.0 2447.5 2448.0 2448.5 2449.0 2449.5 2450.0 2450.5 2451.0 2451.5 2452.0 2452.5 2453.0 2453.5 2454.0 2454.5 2455.0 2455.5 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 2462.0 2462.5 2463.0 2463.5 2464.0 2464.5 2465.0 2465.5 2466.0 2466.5 2467.0 2467.5 2468.0 2468.5 2469.0 2469.5 2470.0 2470.5 2471.0 2471.5 2472.0 2472.5 2473.0 2473.5 2474.0 2474.5 2475.0 2475.5 2476.0 AMB8420/2520 Manual V3.6 Page 13 of 40 Last update: 25/3/2008 Channel no. Freq.

[MHz]

Channel no. Freq.

[MHz]

Channel no. Freq.

[MHz]

Channel no. Freq.

[MHz]

29 30 31 32 33 34 35 36 37 38 39 40 2415.0 2415.5 2416.0 2416.5 2417.0 2417.5 2418.0 2418.5 2419.0 2419.5 2420.0 2420.5 70 71 72 73 74 75 76 77 78 79 80 81 2435.5 2436.0 2436.5 2437.0 2437.5 2438.0 2438.5 2439.0 2439.5 2440.0 2440.5 2441.0 111 112 113 114 115 116 117 118 119 120 121 122 2456.0 2456.5 2457.0 2457.5 2458.0 2458.5 2459.0 2459.5 2460.0 2460.5 2461.0 2461.5 152 153 154 155 156 157 158 159 160 161 162 163 164 165 2476.5 2477.0 2477.5 2478.0 2478.5 2479.0 2479.5 2480.0 2480.5 2481.0 2481.5 2482.0 2482.5 2483.0 Table 4 Frequency assignment AMB2520 9 Timing Parameters 9.1 Reset Behaviour Following a reset, a low level on the /RTS pin signals that the module is ready for operation. However, the level is only valid after the time required for the internal initialisation of the processor (a couple of s). After this initialisation, /RTS is first set to high. Then the processor rate is calibrated on the basis of the watch crystal. Only after this procedure is the module ready for operation. 9.1.1 Power-On Reset After setting the supply voltage and releasing the /RESET pin (if wired), the period until the module is ready for operation greatly depends on the build time of the clock quartz. This procedure may take up to 1 second; typical values range from 200 to 400 ms. Recommended procedure: Check for low level on /RTS pin 2 ms after setting the prescribed supply voltage. Subsequently, an additional 100 s is required until readiness. 9.1.2 Reset via /RESET Pin To force a module restart by means of the /RESET pin, it must first be set to low for at least 10 ms. After the pin is released, /RTS will switch to high after 100 s at the latest. As the build-up time for the clock quartz does not apply in this case, the time until the module is ready for operation is reduced to a couple of ms. During this time, the processor rate will be calibrated, which takes anywhere between 2 and 20 ms depending on the supply voltage and temperature. Recommended procedure: After the /RESET pin is released, wait for 2 ms for low level on the

/RTS pin. Subsequently, an additional 100 s are required until readiness. AMB8420/2520 Manual V3.6 Page 14 of 40 Last update: 25/3/2008 9.2 Wake-up from the Sleep Mode The switch-over to and from the sleep mode is also acknowledged via the /RTS signal. Recommended procedure: After the /SLEEP pin is released, wait for low level on the /RTS pin. Subsequently, an additional 100 s are required until readiness. 9.3 Latencies During Data Transfer / Packet Generation The data transfer is always buffered, i.e. data received via UART is buffered in the module until a specific event (see 9.3.1) occurs. Subsequently, the UART reception is interrupted (flow control with /RTS signal), and the payload data is passed to the internal memory of the wireless transceiver (FIFO). The wireless transmission starts as soon as the first data is available in the transceiver memory;

during the ongoing wireless transmission, the remaining payload data is transmitted piece by piece. On the receiver side, the FIFO is read as soon as an incoming packet is detected. In combination with a suitable packet generation method, this procedure enables the minimisation of the latencies resulting from buffering. 9.3.1 Transparent Operating Mode To minimise the latencies during the packet generation, the following methods are available to control the transmission start:

1. Transmission start after timeout: Transmission begins if no new character is detected within a configurable time period after receiving a character via UART. The timeout is reset every time a character is received. It can be configured with the UART_Timeout parameter (see 12.1.10). 2. Transmission start after a set packet size is reached: Transmission begins when the preconfigured number of bytes (UART_PktSize, see 12.1.7) is reached in the RX buffer of the UART. 3. Transmission start by means of the /DATA_REQUEST pin: The transmission begins as soon as a falling edge is detected on the /DATA_REQUEST pin. The use of the

/DATA_REQUEST pin can be disabled (see CfgFlags parameter, 12.1.29). 4. Transmission start on detection of an end-of-text character: Transmission begins when the preconfigured character is transmitted via UART. The end-of-text character can be configured with the UART_ETXChar parameter (see 12.1.9). The methods 1, 2, and 3 or the methods 2, 3, and 4 can be combined, i.e. transmission is started when either the timeout is reached or the configured packet size is reached or a falling edge is detected on the /DATA_REQUEST pin, or when the configured packet size is reached or the end-of-text character is detected or a falling edge is detected on the /DATA_REQUEST pin. The UART_PktMode parameter (see 12.1.6) can be used to determine which of the listed combinations is to be used. AMB8420/2520 Manual V3.6 Page 15 of 40 Last update: 25/3/2008 9.3.2 Command Mode In the Command Mode, the data is buffered as described in 9.3.1. However, the transmission start is defined exclusively by the receipt of the corresponding command (11.1.1, 11.1.2, or 11.1.4) (i.e. on receipt of a valid checksum). 10 Battery Operation By way of the SLEEP and TRX_DISABLE pins, the module can be set to various power-saving operating states. These states are described below. Table 5 presents an overview of the available options. TRX_DISABLE low TRX_DISABLE high SLEEP low Active mode, wireless and UART communication possible Stand-by, only UART communication possible SLEEP high WOR mode, module wakes up and is ready to receive Sleep mode, neither UART nor wireless communication possible Table 5 Power Consumption Control 10.1 Active Mode In this operating state, the module is permanently ready to receive and forward data via UART or wireless transmission. The module will only switch to one of the other power-saving modes after processing any pending data transmission, i.e. /RTS must be low. 10.2 Stand-By In this operating state, the module's transceiver is disabled. Wireless reception is not possible, but transmission of data is possible. 10.3 WOR Mode The module automatically wakes up at configurable intervals and remains ready to receive for a configurable time. In this connection, refer to the parameters WOR_Prescaler, WOR_Countdown, and WOR_RXOnTime (from 12.1.26). 10.4 Sleep Mode This is the module state with the lowest power consumption. Wireless and UART communication are not possible. The module switches to one of the other operating modes when it detects a falling edge on the SLEEP pin. Concerning the power consumption in this operating mode, refer to the note in section 4.2. AMB8420/2520 Manual V3.6 Page 16 of 40 Last update: 25/3/2008 11 The Command Interface The commands already mentioned in 2.2.3 are described below in detail. 11.1 Data Transfer in the Command Mode 11.1.1 CMD_DATA_REQ This command serves the simple data transfer in the Command Mode. Transmission takes place on the configured channel (see 11.4) to the previously parameterised destination address

(see 11.5 and 11.6). This command is especially suitable for transmission on a point-to-point connection. The number of payload data bytes is limited to 128 in order to prevent buffer overflow. Format (limit 128 payload data bytes):

0x02 0x00 < number of payload data bytes > < payload data bytes > < CS >

Return:

0x02 0x40 0x01 < status > < CS >

Status:

0x00: ACK received, only possible if MAC_NumRetrys is not 0; see 12.1.12 0x01: no ACK received or requested 11.1.2 CMD_DATAEX_REQ This command serves data transfer in a network with several parties. Both the channel to use and the destination address (depending on the parameterised addressing mode) are specified along with the command. The number of payload data bytes is limited to 127, 126, or 125 in order to prevent buffer overflow. Format in addressing mode 0 (limit 127 payload data bytes):

0x02 0x01 < number of payload data bytes + 1 > < channel > < payload data bytes > <

CS >

Format in addressing mode 1 (limit 126 payload data bytes):

0x02 0x01 < number of payload data bytes + 2 > < channel > < destination address > <

payload data bytes > < CS >

Format in addressing mode 2 (limit 125 payload data bytes):

0x02 0x01 < number of payload data bytes + 3 > < channel > < destination network ID >

< destination address > < payload data bytes > < CS >

Return:

0x02 0x40 0x01 < status > < CS >

Status:

0x00: ACK received, only possible if MAC_NumRetrys is not 0; see 12.1.12 0x01: no ACK received or requested 0x02: invalid channel selected AMB8420/2520 Manual V3.6 Page 17 of 40 Last update: 25/3/2008 11.1.3 CMD_DATAEX_IND This telegram indicates the reception of data bytes and represents the counterpart to the commands CMD_DATA_REQ and CMD_DATAEX_REQ. Apart from the RX field strength

(RSSI value), this telegram also specifies the sender address (depending on the parameterised addressing mode). Format in addressing mode 0 (maximum 127 bytes payload data):

0x02 0x81 < number of data bytes + 1 > < data bytes > < field strength > < CS >

Format in addressing mode 1 (maximum 126 bytes payload data):

0x02 0x81 < number of data bytes + 2 > < sender address > < data bytes > < field strength > < CS >

Format in addressing mode 2 (maximum 125 bytes payload data):

0x02 0x81 < number of data bytes + 3 > < sender network ID > < sender address > <

data bytes > < field strength >< CS >

Concerning the interpretation of the field strength, see 11.10. 11.1.4 CMD_DATARETRY_REQ This command relaunches the transmission of the data submitted earlier on with CMD_DATA_REQ or CMD_DATAEX_REQ. Thus, the data does not need to be transmitted again via the serial interface. The buffered data is lost as soon as new data is sent via UART or data is received via wireless transmission. Format:

0x02 0x02 0x00 0x00 Return:

0x02 0x40 0x01 < status > < CS >

Status:

0x00: ACK received, only possible if MAC_NumRetrys is not 0; see 12.1.12 0x01: no ACK received or requested 0x03: no data available (e.g., overwritten by wireless data reception) AMB8420/2520 Manual V3.6 Page 18 of 40 Last update: 25/3/2008 11.2 CMD_SET_MODE_REQ This command is used to toggle the operating mode, e.g. to exit the command mode (this is currently the only application). Format:

0x02 0x04 0x01 < desired operating mode > < CS >

Example (exit Command Mode):

0x02 0x04 0x01 0x00 0x07 Return:

0x02 0x44 0x01 < newly configured operating mode > < CS >

Return for above example:

0x02 0x44 0x01 0x00 0x47 The following operating modes are defined:

Mode 0 (0x00): transparent data transfer Mode 16 (0x10): Command Mode 11.3 CMD_RESET_REQ This command triggers a software reset of the module. The reset is performed after the acknowledgement is issued. Format:

0x02 0x05 0x00 0x07 Return:

0x02 0x45 0x01 < status > < CS >

Status:

0x00: success AMB8420/2520 Manual V3.6 Page 19 of 40 Last update: 25/3/2008 11.4 CMD_SET_CHANNEL_REQ This command is used to toggle the wireless channel. Unlike the non-volatile parameter PHY_DefaultChannel (see 12.1.21), this is a volatile runtime parameter. Format:

0x02 0x06 0x01 < 1-byte channel > < CS >

Example (selection of channel 108):

0x02 0x06 0x01 0x6C 0x69 Return:

0x02 0x46 0x01 < new channel > < CS >

Return for above example:

0x02 0x46 0x01 0x6C 0x29 The number of the newly set channel is returned. If the permissible frequency range is exceeded, the lowest and highest permissible channels are configured and returned. 11.5 CMD_SET_DESTNETID_REQ This command serves to configure the destination network ID in addressing mode 2. Unlike the non-volatile parameter MAC_DestNetID (see 0), this is a volatile runtime parameter. Format:

0x02 0x07 0x01 < 1-byte destination network ID > < CS >

Return:

0x01 0x47 0x01 < status > < CS >

Status:

0x00: success 11.6 CMD_SET_DESTADDR_REQ This command serves to configure the destination address in addressing modes 1 and 2. Unlike the non-volatile parameter MAC_DestAddrLSB (see 12.1.15), this is a volatile runtime parameter. Format:

0x02 0x08 0x01 < 1-byte destination address > < CS >

Return:

0x02 0x48 0x01 < status> < CS >

Status:

0x00: success AMB8420/2520 Manual V3.6 Page 20 of 40 Last update: 25/3/2008 11.7 CMD_SET_REQ This command enables direct manipulation of the parameters in themodules non-volatile memory. The respective parameters are accessed by means of the memory position described in Table 8. You can modify individual or multiple consecutive parameters in the memory at the same time. Caution: The validity of the specified parameters is not verified. Incorrect values can result in device malfunction!

Caution: To save the parameters in the flash memory of the module, the particular memory segment must first be flushed entirely and then restored from the RAM. If a reset occurs during this procedure (e.g. due to supply voltage fluctuations), the entire memory area may be destroyed. In this case, the module may no longer be operable, which means that the firmware must be re-installed via "ACC". Recommendation: First verify the configuration of the module with CMD_GET_REQ; write only if necessary. Format:

0x02 0x09 < number of bytes + 2 > < memory position > < number of bytes > <

parameter > < CS >

Return:

0x02 0x49 0x01 < status > < CS >

Status:

0x00: success 0x01: invalid memory position (write access to unauthorised area > 79 / 0x4F) 0x02: invalid number of bytes to be written (write access to unauthorised area > 0x4F) Example 1: Setting the number of wireless retries (parameter MAC_NumRetrys, memory position 20 according to Table 8):

0x02 0x09 0x03 0x14 0x01 < MAC_NumRetrys > < CS >

Example 2: Setting the 3 registers for the baud rate configuration (UART_MCTL, UART_BR0, and UART_BR1). According to Table 8, UART_MCTL has the memory position 2:

0x02 0x09 0x05 0x02 0x03 < UART_MCTL > < UART_BR0 > < UART_BR1 > < CS >

AMB8420/2520 Manual V3.6 Page 21 of 40 Last update: 25/3/2008 11.8 CMD_GET_REQ This command can be used to query individual or multiple non-volatile parameters (see 12.1). The requested number of bytes from the specified memory position are returned. You can query individual or multiple consecutive parameters in the memory at the same time. Format:

0x02 0x0A 0x02 < memory position > < number of bytes > < CS >

Example (query of all parameters):

0x02 0x0A 0x02 0x00 0x80 0x8A Return:

0x02 0x4A < number of bytes + 2 > < memory position > < number of bytes > <

parameter > < CS >

Write access to the memory area after the parameters documented in Table 8 is blocked. The memory position and the number of bytes are limited accordingly. Thus, the last memory position that can be read out is 79 (0x4F). 11.9 CMD_SERIALNO_REQ This command can be used to query the individual serial number of the module. Format:

0x02 0x0B 0x00 0x09 Return:

0x02 0x4B 0x04 < 4-byte serial number > < CS >

The most significant byte, which identifies the product (product ID), is returned. AMB8420/2520 Manual V3.6 Page 22 of 40 Last update: 25/3/2008 11.10 CMD_RSSI_REQ This command delivers the current RX level determined by the transceiver IC in the form of a two's complement. Format:

0x02 0x0D 0x00 0x0F Return:

0x02 0x4D 0x01 < RX level > < CS >

The value obtained in this way delivers the RX level RSSIdBm in dBm as follows:

1. Conversion of the hexadecimal value to a decimal RSSIdec 2. If RSSIdec 128: RSSIdBm = (RSSIdec 256) / 2 - RSSIOffset 3. Otherwise (RSSIdec < 128): RSSIdBm = RSSIdec / 2 - RSSIOffset RSSIOffset is a data-rate-dependent correction factor according to Table 6 (AMB8420) and Table 7 (AMB2520). The relation between the calculated value and the physical RX level in dBm is not linear across the entire operating range and is displayed in Figure 2 and Figure 3 . Data rate 1.2 kbps 38.4 kbps 250 kbps RSSI offset 74 74 78 Table 6 Data rate-dependent RSSI offset for AMB8420 (from [2]) Data rate 2.4 kbps 10 kbps 250 kbps 500 kbps RSSI offset 71 69 72 72 Table 7 Data rate-dependent RSSI offset for AMB2520 (from [3]) AMB8420/2520 Manual V3.6 Page 23 of 40 Last update: 25/3/2008 Relation between the RX level and the RSSI value read out for AMB8420 (from [2]) Figure 2 Relation between the RX level and the RSSI value read out for AMB2520 (from [3]) Figure 3 AMB8420/2520 Manual V3.6 Page 24 of 40 Last update: 25/3/2008 11.11 CMD_ERRORFLAGS_REQ This command returns internal error states. Format:

0x02 0x0E 0x00 0x0C Return:

0x02 0x4E 0x02 < error flags MSB > < error flags LSB >< CS >

An error flag return value of "0" indicates that no error has occurred. The value is set back after the query and in the event of a reset. The meaning of the error flags is not described in detail in this context. 12 Configuration Parameters 12.1 Non-Volatile Configuration Parameters The non-volatile parameters listed in the following table can be modified by means of specific commands in the configuration mode (CMD_SET_REQUEST, see 11.7) of the module or by using the Windows software "ACC". These parameters are stored permanently in the module's flash memory. Caution: The validity of the specified parameters is not verified. Incorrect values can result in device malfunction!

Designation Designation in ACC Summary Permissible Default values AMB8420 Memory position Number of bytes UART_CTL Data format UART_TCTL UART_MCTL MCTL UART_BR0 BR0 UART_BR1 BR1

AMB2520 See Table 16 9 32 32 0 - 255 0 / 68 0 1 2 1 1 1 0 - 255 113 / 156 3 1 0 - 255 2 / 0 4 1 Control register for UART data format Control register for the baud rate (change only after consultation) Control register for fine-adjusting the UART baud rate;

concerning the calculation, see [1]

Prescaler for setting the baud rate (LSB);

concerning the calculation, see [1]

Prescaler for setting the baud rate (MSB);

concerning the AMB8420/2520 Manual V3.6 Page 25 of 40 Last update: 25/3/2008 Designation Designation in ACC Summary Permissible Default values AMB8420 Memory position Number of bytes calculation, see [1]

Selects the packet generation method Number of characters for transmission start with set packet size Number of received characters after which

/RTS responds End-of-text character used to mark data packets; reception of this character triggers wireless transmission Timeout after the last character before the data received via UART are transmitted via wireless transmission (in milliseconds) Delay between the signalling by the

/DATA_INDICATION pin and the start of the output via UART Number of wireless retries Addressing mode to use Default destination network ID Default destination address (LSB) UART_PktMode Packetizing mode UART_PktSize Packet size UART_RTSLimit

/RTS limit UART_ETXChar ETX character UART_Timeout Timeout UART_DIDelay Data indication delay MAC_NumRetrys Retrys MAC_AddrMode Addressing mode MAC_DestNetID Dest. net ID MAC_DestAddrLSB Dest. device address MAC_SourceNetID Local net ID MAC_SourceAddrLSB Local device address MAC_ACKTimeout ACK timeout

AMB2520 0 or 1 0 1 - 128 128 1 - 128 112 0 - 255 10 5 7 8 9 1 1 1 1 0 65535 5 12 2 0 65535 0 14 2 0 255 0/1/2 0 255 0 255 0 0 0 0 0 0 20 21 24 25 28 29 32 1 1 1 1 1 1 2 Own network ID 0 254 Own address (LSB) 0 254 Waiting time for wireless acknowledgement in 0 65535 10 AMB8420/2520 Manual V3.6 Page 26 of 40 Last update: 25/3/2008 Designation Designation in ACC Summary Permissible Default values AMB8420 Memory position Number of bytes PHY_FIFOPrecharge FIFO precharge PHY_PAPower PA power milliseconds Fill level of the FIFO before the transmission is launched (change only after consultation) Transmission output;

value range depends on HF configuration PHY_DefaultChannel Default channel Utilised wireless channel after reset;

value range depends on HF configuration PHY_CCARSSILevel CCA RSSI level OpMode Mode MSP_RSELx DCO resistor sel. MSP_DCOCTL DCO control WOR_Prescaler Prescaler WOR_Countdown Countdown WOR_RXOnTime RX on time Field strength level for

"channel free"

detection (not yet supported) Operating mode Start value for control loop DCO calibration after system reset

(change only after consultation) Start value for control loop DCO calibration after system reset

(change only after consultation) Duration of a wake-up cycle for periodic wake-ups in WOR mode Number of wake-up cycles before waking up in WOR mode Duration of RX readiness in WOR mode

AMB2520 8 64 8 40 1 0 - 255 195 / 255 41 0 - 255 106 / 79 42 1 1 0 - 255 0 43 1 0.16 0 - 7 0 7 60 61 1 0 - 255 110 62 1 0 65535 4096 64 2 0 65535 5 66 0 65535 1000 68 2 2 2 CfgFlags Configuration flags (hex.) Flags for setting various properties; see 0 65535 0 72

(0x0000) AMB8420/2520 Manual V3.6 Page 27 of 40 Last update: 25/3/2008 Designation Designation in ACC Summary Permissible Default values AMB8420 Memory position Number of bytes

AMB2520 0 - 255 211 76 1 0 - 255 145 77 1 12.1.29 Synch word MSB for transceiver (change only after consultation!) Synch word LSB for transceiver (change only after consultation) Table 8 Overview of Non-Volatile Configuration Parameters Synch1 Synch1 Synch0 Synch0 12.1.1 UART_CTL The UART data format can be configured with the help of the upper 4 bits in this register. The meaning of these bits is described in Table 9. Bit no. Description 0 to 3 (0x0F) Reserved, must always be set to 0. 4 (0x10) 5 (0x20) 6 (0x40) If this bit is set, the character length will be 8 bits, if not, it will be 7 bits. This bit selects the number of stop bits. If this bit is set, 2 stop bits will be used, if not, 1 will be used. If this bit is set, even parity will be used, if not, odd parity will be used. 7 (0x80) This bit enables the use of parity (if set). Table 9 Setting the Data Format 12.1.2 UART_TCTL This register selects the source for generating the UART clock speed. Currently, the only permissible value is 32. 12.1.3 UART_MCTL The registers UART_MCTL, UART_BR0, and UART_BR1 can be used to set the UART baud rate. Concerning the calculation of the corresponding settings, see [1]. 12.1.4 UART_BR0 The registers UART_MCTL, UART_BR0, and UART_BR1 can be used to set the UART baud rate. Concerning the calculation of the corresponding settings, see [1]. AMB8420/2520 Manual V3.6 Page 28 of 40 Last update: 25/3/2008 12.1.5 UART_BR1 The registers UART_MCTL, UART_BR0, and UART_BR1 can be used to set the UART baud rate. Concerning the calculation of the corresponding settings, see [1]

12.1.6 UART_PktMode Selects the method used for generating packets for the transparent operating mode. Two methods have been implemented:

0. Mode 0: Sends when a. the timeout defined with UART_Timeout is reached, or b. the number of bytes defined with UART_PktSize is reached, or c. the transmission of the data is requested by means of the /DATA_REQUEST pin. 1. Mode 1: Sends when a. the character defined with UART_ETXChar is detected, or b. the number of bytes defined with UART_PktSize has been received, or c. the transmission of the data is requested by means of the /DATA_REQUEST pin. 12.1.7 UART_PktSize Maximum number of bytes after which the wireless transmission of the data received via UART starts. Used in packet mode 0 as well as in packet mode 1. Not used in the command mode. 12.1.8 UART_RTSLimit Number of bytes after which the host system is prompted to interrupt the data transfer over

/RTS. Necessary, because an immediate response to the /RTS signal may not take place

(UART FIFO), depending on the host system. 12.1.9 UART_ETXChar End-of-text character that triggers the transmission of the data received via UART. Only used in packet mode 1. During the wireless transmission, the ETX character is treated like a normal character. Not used in the Command Mode. 12.1.10 UART_Timeout Timeout in milliseconds after the last character has been received on UART before the wireless transmission of the data received via UART starts. Only used in packet mode 0. If no new character is detected for this period after the STX character has been received in the command mode, the characters received until then will be dropped, and the unit will wait for a new start character. Not used in the Command Mode. AMB8420/2520 Manual V3.6 Page 29 of 40 Last update: 25/3/2008 12.1.11 UART_DIDelay This parameter determines the delay in milliseconds between the signalling of incoming wireless data over the /DATA_INDICATION pin and the output of the data via UART. For example, this delay can be used to prepare a "sleeping" host system for receiving the data. From software version 3.2 also valid in the Command Mode. 12.1.12 MAC_NumRetrys Determines the maximum number of wireless transmission retries. If this parameter is set to a value other than 0, the receiver module will automatically be prompted to send a wireless acknowledgement. 12.1.13 MAC_AddrMode Addressing mode to use. The following modes have been implemented:

0. Mode 0: no address 1. Mode 1: 1-byte address 2. Mode 2: 1-byte network ID, 1-byte device address Warning: In addressing mode 0, the use of wireless acknowledgement may cause problems if several wireless modules are addressed simultaneously. In this case, all modules will simultaneously acknowledge the receipt of the package. Thus, the wireless acknowledgement cannot be received by the sending module due to the collision, and the maximum number of retries will be sent. 12.1.14 MAC_DestNetID Destination network address to use in addressing mode 2 after a reset. Can be modified with the command CMD_SET_DESTNETID_REQ at runtime (volatile). If the special broadcast ID and the broadcast address are set to 255, the sender will be received by all. 12.1.15 MAC_DestAddrLSB Destination address to use in addressing modes 1 and 2 after a reset. Can be modified with the command CMD_SET_DESTADDRESS_REQ at runtime (volatile). If the special broadcast address is set to 255 (in the case of addressing mode 2, broadcast ID also 255), the sender will be received by all. 12.1.16 MAC_SourceNetID Source network ID in addressing mode 2. 12.1.17 MAC_SourceAddrLSB Source device address in addressing modes 1 and 2. AMB8420/2520 Manual V3.6 Page 30 of 40 Last update: 25/3/2008 12.1.18 MAC_ACKTimeout Time to wait for a wireless acknowledgement before a wireless retry is triggered. The values are automatically set in "ACC" depending on the configured HF data rate. HF data rate ACK timeout recommended 1.2 kbps 2.4 kbps 4.8 kbps 10.0 kbps 38.4 kbps 76.8 kbps 100.0 kbps 250.0 kbps 85 ms 45 ms 25 ms 15 ms 8 ms 6 ms 5 ms 5 ms Table 10 Recommended Timeouts 12.1.19 PHY_FIFOPrecharge Number of bytes that are stored in the transceiver FIFO before actual transmission is launched. Required to prevent a buffer underrun for HF baud rates of more than 200 kbps. The values are automatically set in "ACC" depending on the configured HF data rate. 12.1.20 PHY_PAPower HF output of the module. The maximum permissible output depends on the utilised HF configuration. The default value already represents the maximum possible output. 12.1.21 PHY_DefaultChannel Determines the wireless channel to use after a module reset. 12.1.22 PHY_CCARSSILevel Field strength used for "channel-free" detection (not implemented). 12.1.23 OpMode Operating mode to be used after power up. Modes 0 (transparent data transfer) and 16

(command mode) can be selected here. 12.1.24 MSP_RSELx Start value for a register used to set the processor speed. The speed is controlled continuously in the background. The frequency of the clock quartz is used for the calibration. The system start-up time can be optimised by means of a suitable configuration of this register (change only after consultation). AMB8420/2520 Manual V3.6 Page 31 of 40 Last update: 25/3/2008 12.1.25 MSP_DCOCTL Start value for a register used to set the processor speed. The speed is controlled continuously in the background. The frequency of the clock quartz is used for the calibration. The system start-up time can be optimised by suitably configuring this register (change only after consultation). 12.1.26 WOR_Prescaler Defines the intervals in which the module in the sleep mode wakes up for a countdown

(WOR_Countdown) until actual RX readiness. The interval (in seconds) is calculated as follows:

T escaler Pr

WOR Pr_ escaler 4096 12.1.27 WOR_Countdown Number of prescaler cycles (countdown) until the module in the WOR mode enters the RX state. The duration until automatic RX readiness is calculated as follows:

TWOR

WOR _ NumCyles WOR Pr_ escaler 4096 12.1.28 WOR_RXOnTime Defines the duration in milliseconds for which the module in the WOR is RX-ready after waking up before it returns to the sleep mode. AMB8420/2520 Manual V3.6 Page 32 of 40 Last update: 25/3/2008 12.1.29 CfgFlags 16-bit bit field in which the use of individual pins or signals can be disabled. Table 11 presents a description of the respective flags. Bit no. Description 0 (0x0001) 1 (0x0002) 2 (0x0004) 3 (0x0008) If this bit is set, the function of the /CONFIG pin will be disabled. Subsequently, the unit can no longer be switched to the command mode via this pin. If this bit is set, the function of the /DATA_REQUEST pin will be disabled. Subsequently, data can no longer be sent using this pin. If this bit is set, the detection of the break signal on the UART interface will be suppressed. Subsequently, the unit can no longer be switched to the Command Mode by means of such a signal. If this bit is set, the status of the SLEEP and TRX_DISABLE pins will be ignored. Thus, the module can no longer be set to the various power-saving modes via these pins. 4 (0x0010) Reserved 5 (0x0020) If this bit is set, any character will be accepted as valid checksum in the command mode. 6 (0x0040) Reserved 7 (0x0080) If this bit is set, the address will not be resolved. The particular module can be used as packet sniffer to monitor a wireless link

(from version 3.2). 9 to 15 (0xFF00) Reserved Table 11 Configuration Flags Warning: If both bit 0 and bit 2 are set, the module can no longer be set to the configuration mode. In this case, access to the operating parameters is only possible with the "ACC" program. AMB8420/2520 Manual V3.6 Page 33 of 40 Last update: 25/3/2008 13 Start-up 13.1 Minimal Configuration In the factory state, the modules are immediately ready for operation; the following pins are required in the minimal configuration: VCC, GND, UTXD, and URXD. If the module is to be connected to a PC, a level converter (TTL to RS232) must be used. In the default configuration, all module inputs (SLEEP, TRX_DISABLE, /CONFIG, and

/DATA_REQUEST) are activated and must be switched to GND if they are not to be used (see Table 2). 13.2 Transfer of Large Amounts of Data When transmitting larger amounts of data, the limited buffer size in the module must be taken into consideration. The data can only be transmitted packet by packet. In this case, the /RTS pin should be used (flow control). 13.3 Deployment of Several Modules, Use of Addresses, Channel Switching In this case, we recommend connecting the /CONFIG pin in order to facilitate the required settings in the command mode. 13.4 Use of the Low-Power Functionality In this case, we recommend connecting the SLEEP, TRX_DISABLE, and /DATA_INDICATE pins. The /CONFIG pin, too, should be set to a defined level (see section 0). 13.5 Minimising Latencies The latencies that occur during the formation of packets (see section 9) can be minimised by using the /DATA_REQUEST pin, if neither fixed packet sizes nor a fixed packet termination character are used. 14 Firmware Update The firmware of the module can be updated with the PC utility "ACC" via the serial interface. If the module is not connected to a PC, the UART of the module should be made accessible, e.g. by means of suitable connectors. Only the UTDX and URXD signals are needed for this procedure. A level converter (TTL to RS232) is required for PC connection. AMB8420/2520 Manual V3.6 Page 34 of 40 Last update: 25/3/2008 14.1 Update of Earlier FW Versions (< 3.0.0) To update firmware versions prior to 3.0.0, activate the option "Update factory settings" when using "ACC". This approach ensures that the new parameters added to the factory settings of the module are also overwritten. See Figure 4. Figure 4 FW update for versions < 3.0.0 AMB8420/2520 Manual V3.6 Page 35 of 40 Last update: 25/3/2008 15 Manufacturing Information 15.1 Footprint Dimensioning Proposal Figure 5 Dimensional Drawing AMB8420 Figure 6 Proposal for Footprint Dimensions in mm. When designing the carrier board layout for AMB8420, the following must be taken into consideration:

As shown in Figure 6, avoid having any ground or metal in the ceramic aerial area (none at all on the right side and at least 10 mm distance above if it cannot be avoided). The top layer of the carrier board should be kept free of tracks/vias underneath the AMB8420, as it is merely coated with solder mask (poor insulation properties) and the bottom of the AMB8420 has uncovered vias. Tracks should only be laid under the AMB8420 in multi-layer structures in which layer 2 serves as ground layer that shields the underlying layers. N.B.: If the spacing of 12 mm between the pad rows is not complied with, there will be a substantial short-circuit risk of VCC against GND!

AMB8420/2520 Manual V3.6 Page 36 of 40 Last update: 25/3/2008 15.2 Soldering Vacuum-packaged shipments are suitable for reflow soldering. Depending on the components used, the limits specified in J-STD-020 must not be exceeded. Recommendations for the temperature curve for the soldering furnace cannot be made, as it depends on the substrate board, the number and characteristics of the components, and the soldering paste used (consult own populating unit). Figure 7 shows a soldering curve that was already used for a 31 cm2 carrier board for single-side populating. Example of Temperature Curve N. B.: Must be adjusted to the characteristics of the carrier board!

Figure 7 AMB8420/2520 Manual V3.6 Page 37 of 40 Last update: 25/3/2008 16 Version History 16.1 Software Version 3.0 Product release Version 3.1 Bug fix "break detection"

Version 3.2 Bug fix UART_DIDelay in Command Mode Sniffer mode via CfgFlags SPI variant available 16.2 Manual Version 3.6 (valid for software versions 3.0, 3.1, and 3.2) Clarification of packet formation in Command Mode (also concerns /DATA_REQUEST) Readout of the RSSI value: added specification for AMB2520 Added electrical parameters AMB2520 Switching to the Command Mode only with delay after /RTS low (2.2.1) Added timing parameters Added restrictions for channel table AMB2520 17 References

[1] To calculate the baud rate registers UART_MCTL, UART_BR0, and UART_BR1, the

"Baud Rate Calculator" tool is integrated in ACC. To configure a standard baud rate, ACC provides a drop-down field with automatic calculation and parameterisation of the baud rate registers.

[2] "CC1100 Single-Chip Low-Cost Low-Power RF Transceiver (Rev. B)", Texas Instruments

[3] "CC2500 Single-Chip Low-Cost Low-Power RF Transceiver (Rev. B)", Texas Instruments

[4] "AMB8420 Data Sheet", AMBER wireless GmbH

[5] "AMB2520 Data Sheet", AMBER wireless GmbH

[6] "AMB8420 / AMB2520 SPI Operation" AMBER wireless GmbH AMB8420/2520 Manual V3.6 Page 38 of 40 Last update: 25/3/2008 18 Declaration of Conformity AMB8420/2520 Manual V3.6 Page 39 of 40 Last update: 25/3/2008 19 Important Information 19.1 Exclusion of Liability AMBER wireless GmbH presumes that the information in this document is correct at the time of publication. However, AMBER wireless GmbH reserves the right to modify technical specifications or functions of its products or discontinue the production of these products or the support of one of these products without any written announcement or notification to customers. The customer must make sure that the information used is valid. AMBER wireless GmbH does not assume any liability for the use of its products. Amber wireless GmbH does not grant licenses for its patent rights or for any other of its intellectual property rights or third-party rights. Customers bear responsibility for compliance of systems or units in which AMBER wireless products are integrated with applicable legal regulations. 19.2 Trademarks AMBER wireless is a registered trademark of AMBER wireless GmbH. All other trademarks, registered trademarks, and product names are the exclusive property of the respective owners. 19.3 Usage Restriction AMBER wireless products are not approved for use in life-supporting or life-sustaining systems or units or other systems whose malfunction could result in serious bodily injury to the user. Moreover, AMBER wireless products are not approved for use as key components of any life-

supporting or life-sustaining system or unit whose malfunction could result in the failure of the life-supporting system or unit or could affect its safety or effectiveness. AMBER wireless customers who use these products in such applications or sell them for such usage act at their own risk and must relieve AMBER wireless GmbH from all damages that may result from the sale for unsuitable purposes or unsuitable usage. By using AMBER wireless products, the user agrees to these terms and conditions. 2008, AMBER wireless GmbH. All rights reserved. AMBER wireless GmbH Albin-Kbis-Strasse 18 D-51147 Cologne Phone: +49 2203 6991950 Fax: +49 2203 459883 E-mail: Internet:

Internet http://www.amber-wireless.de AMB8420/2520 Manual V3.6 Page 40 of 40 Last update: 25/3/2008

 

 

Annex No.4b Page 1 of 164 Functional description / Users manual testo Saveris Measurement data monitoring with testo Saveris Small Business Edition Instruction manual 2 0970 4020 en 01 testo AG Pos: 1 /TD/berschriften/1. Inhalt @ 0\mod_1177587817070_79.doc @ 1243 1 Contents 1 1 2 3 4 5 Contents Contents .............................................................................................3 Safety and the environment ..............................................................7 2.1. About this document ..................................................................7 2.2. Ensure safety.............................................................................8 2.3. Protecting the environment ........................................................9 Specifications...................................................................................10 3.1. Use 10 3.2. System requirements ...............................................................12 Product description .........................................................................13 4.1. Saveris base ............................................................................13 4.2. Saveris base GSM module (optional) ......................................15 4.2.1. Control keys............................................................................................15 4.2.2. Displays..............................................Fehler! Textmarke nicht definiert. 4.3. Save radio probe......................................................................20 4.3.1. Radio probe without display................Fehler! Textmarke nicht definiert. 4.3.2. Radio probe with display.....................Fehler! Textmarke nicht definiert. 4.3.3. Meaning of the LED displays at the probes.............................................23 4.4. Saveris Ethernet probes ..........................................................24 4.5. Saveris router...........................................................................26 4.6. Saveris converter .....................................................................27 First steps.........................................................................................28 5.1. Checking the scope of delivery ................................................28 5.1.1. Set 1 28 5.1.2. Set 2 28 5.1.3. Set 3 29 5.2. Flowchart .................................................................................30 5.3. Inserting SIM card (optional)....................................................32 5.4. Connecting USB cable to the Saveris base .............................33 5.5. Connecting GSM antenna (optional)........................................34 5.6. Connecting Saveris base with power supply............................35 5.6.1. Power supply via mains unit ...................................................................35 5.6.2. Power supply via plug-in/screw connection (optional).............................36 0970 4020 en 01 3 1 Contents 5.7. Inserting batteries in the probes...............................................37 5.8. Connecting radio probe....... Fehler! Textmarke nicht definiert. 5.9. Installing Saveris software .......................................................40 5.10. Starting up hardware........... Fehler! Textmarke nicht definiert. 5.11. Starting Saveris software .... Fehler! Textmarke nicht definiert. 5.12. Expand measuring system.......................................................52 5.12.1. Integrating Saveris router (optional)........................................................52 5.12.1.1. Connecting router with power supply (mains unit)...............53 5.12.1.2. Connecting router with power supply (AC/DC)....................54 5.12.1.3. Connecting router ...........Fehler! Textmarke nicht definiert. 5.12.1.4. Assigning probes ............Fehler! Textmarke nicht definiert. 5.12.2. Integrating Saveris Ethernet probe (optional)..........................................61 5.12.2.1. Connecting the network cable.............................................62 5.12.2.2. Connecting Ethernet probe with power supply (mains unit).64 5.12.2.3. Connecting USB cable and installing driver ........................65 5.12.2.4. Installing parameterization software....................................66 5.12.2.5. Assigning connection data ..................................................66 5.12.2.6. Connecting the network cable to the Saveris base..............70 5.12.2.7. Starting up Ethernet probesFehler! Textmarke nicht definiert. 5.12.3. Integrating Saveris converter (optional) ..................................................76 5.13. Performing the test run ............................................................77 5.13.1. Checking system availability...................................................................77 5.13.2. Checking alarm chain .........................Fehler! Textmarke nicht definiert. 5.14. Mounting the hardware ............................................................79 5.14.1. Mounting the Saveris base on the wall ...................................................79 5.14.2. Setting up Saveris base with stand.........................................................81 5.14.3. Mounting the probe on the wall...............................................................82 5.14.4. Checking the measuring system again ...................................................83 Using the product ............................................................................84 6.1. User interface...........................................................................84 6.2. Menus and commands.............................................................86 6.2.1. Start 86 6.2.2. Edit 89 6.2.3. Options 92 6.2.4. Template ................................................................................................93 6.2.5. Style 93 6.2.6. Help (?) 93 6.3. Creating and deleting zones ....................................................94 6.3.1. Creating zones .......................................................................................94 6.3.2. Deleting zones........................................................................................94 6.4. Configuring the alarms.............................................................95 6.4.1. Basic settings for the SMS messages.Fehler! Textmarke nicht definiert. 0970 4020 en 01 testo AG 6 4 1 Contents 6.4.2. Configuring the probe alarm ...............Fehler! Textmarke nicht definiert. 6.4.3. Alarm overview ...................................Fehler! Textmarke nicht definiert. 6.5. Analyzing series of measurements ........................................100 6.5.1. Diagram view........................................................................................100 6.5.1.1. Enlarging the view ...................................................................100 6.5.1.2. Information on a reading (crosshairs).......................................101 6.5.1.3. Marking the area......................................................................101 6.5.1.4. Showing regression curve........................................................102 6.5.1.5. Inserting text ............................................................................102 6.5.1.6. Erasing text..............................................................................103 6.5.1.7. Characteristics of a curve ........................................................103 6.5.1.8. Settings for the axes in the diagram.........................................108 6.5.2. Table view ............................................................................................111 6.5.2.1. Marking readings ...................Fehler! Textmarke nicht definiert. 6.5.2.2. Dropping the marking...............................................................112 6.5.2.3. Inserting extreme values or mean in the table..........................112 6.5.2.4. Compressing readings...........Fehler! Textmarke nicht definiert. 6.5.2.5. Dropping compression.............................................................114 6.5.2.6. Determining largest reading.....................................................114 6.5.2.7. Determining the smallest reading.............................................114 6.6. Analyzing alarms....................................................................114 6.6.1. Checking alarms.................................Fehler! Textmarke nicht definiert. 6.6.2. Acknowledge the alarm ......................Fehler! Textmarke nicht definiert. 6.7. Creating evaluations ..............................................................117 6.7.1. Printing measurement data...................................................................117 6.7.2. Archiving with automatic reports ...........................................................118 6.8. Creating a new database (project)Fehler! Textmarke nicht definiert. 6.9. System settings......................................................................121 6.9.1. General settings for the Saveris base .Fehler! Textmarke nicht definiert. 6.9.2. System settings for the GSM module..Fehler! Textmarke nicht definiert. 6.9.3. Show operating data of the probes. ...Fehler! Textmarke nicht definiert. 6.9.4. Settings for the radio probe.................Fehler! Textmarke nicht definiert. 6.9.5. Ethernet probes ..................................Fehler! Textmarke nicht definiert. 6.9.6. Router Fehler! Textmarke nicht definiert. 6.10. Report settings.......................................................................127 Maintaining the product ................................................................130 7.1. Replacement of components .................................................130 7.1.1. Deleting components..........................Fehler! Textmarke nicht definiert. 7.1.2. Adding components............................Fehler! Textmarke nicht definiert. 7.2. Calibration and adjustment ....................................................137 7.3. Removing probe from wall bracket.........................................138 7.4. Changing batteries at probe...................................................139 0970 4020 en 01 5 7 1 Contents 7.5. Technical data........................................................................141 7.5.1. Saveris base.........................................................................................141 7.5.2. Saveris radio probe...............................................................................142 7.5.3. Saveris router .......................................................................................148 7.5.4. Saveris Ethernet probes .......................................................................149 7.5.5. Saveris converter..................................................................................154 Tips and assistance.......................................................................155 8.1. Questions and answers .........................................................155 8.2. Accessories and spare parts..................................................159 8 Pos: 2 /TD/--- Seitenwechsel --- @ 0\mod_1173774430601_0.doc @ 283 6 0970 4020 en 01 testo AG 2 Safety and the environment Pos: 3 /TD/berschriften/2. Sicherheit und Umwelt @ 0\mod_1173774719351_79.doc @ 292 2 2.1. Pos: 4 /TD/berschriften/2.1 Zu diesem Dokument @ 0\mod_1173775252351_79.doc @ 346 Pos: 5 /TD/Sicherheit und Umwelt/Zu diesem Dokument/Symbole und Schreibkonv. [Saveris] @ 0\mod_1193735939953_79.doc @ 5623 Safety and the environment About this document Symbols and writing standards Representat ion Explanation 1. ... 2. ... ..

... .. .. Menu

[OK]

... | ... .. Warning advice, risk level according to the signal word:

Warning! Serious physical injury may occur. Caution! Slight physical injury or damage to the equipment may occur.

Implement the specified precautionary measures. Note: Basic or further information. Action: more steps, the sequence must be followed. Action: a step or an optional step. Result of an action. Position numbers for the clarification of the relationship between text and picture. Elements of the instrument, the instrument display or the program interface. Control keys of the instrument or buttons of the program interface. Functions/paths within a menu. Example entries Pos: 6 /TD/Sicherheit und Umwelt/Zu diesem Dokument/Verwendung (Saveris) @ 0\mod_1191328770562_79.doc @ 5412 0970 4020 en 01 7 2 Safety and the environment Use

> Familiarity with a PC as well as the Microsoft products, especially Microsoft Office 2007, is assumed in this documentation.

> Please read this documentation through carefully and familiarize yourself with the product before putting it to use. Pay particular attention to the safety instructions and warning advice in order to prevent injuries and damage to the products.

> Keep this document to hand so that you can refer to it when necessary.

> Hand this documentation on to any subsequent users of the product. Pos: 7 /TD/berschriften/2.2 Sicherheit gewhrleisten @ 0\mod_1173780783960_79.doc @ 366 2.2. Pos: 8 /TD/Sicherheit und Umwelt/Sicherheit gewhrleisten/Saveris Wartungsarbeiten @ 1\mod_1196958627509_79.doc @ 6094 Ensure safety

> Carry out only the maintenance and repair work on the components of the testo Saveris system that is described in the documentation. Follow the prescribed steps exactly. Use only original spare parts from Testo. Pos: 9 /TD/Sicherheit und Umwelt/Sicherheit gewhrleisten/Saveris spannungsfhrende Teile @ 1\mod_1204907008625_79.doc @ 12630

> Never use the Saveris probes to measure on or near live parts. Pos: 10 /TD/Sicherheit und Umwelt/Sicherheit gewhrleisten/Produkt bestimmungsgem verwenden @ 0\mod_1173781261848_79.doc @ 386

> Only operate the product properly, for its intended purpose and within the parameters specified in the technical data. Do not use any force. Pos: 11 /TD/Sicherheit und Umwelt/Sicherheit gewhrleisten/Saveris Funk @ 1\mod_1198149459718_79.doc @ 6845

> The output of the power supply for the Saveris probes, routers, converters and the Saveris base is restricted in accordance with EN 60950-1:2001. A manipulation of the power supply is not allowed in terms of the radio authorization.

> The radio module is installed in the Saveris components such that the limit values for air and creepage distance is adhered to with regard to the standards. Changing the internal design of the components is not allowed.

> When selecting the location, ensure that the permissible ambient and storage temperatures are adhered to:

Radio module: -35 to 50C Components:

-35 to 50 C (operation);

-40 to 55 C (storage). 8 0970 4020 en 01 testo AG 2 Safety and the environment Pos: 12 /TD/berschriften/2.3 Umwelt schtzen @ 0\mod_1173780843645_79.doc @ 375 2.3. Pos: 13.1 /TD/Sicherheit und Umwelt/Umwelt schtzen/Akkus/Batterien entsorgen @ 0\mod_1175693637007_79.doc @ 619 Protecting the environment

> Dispose of faulty rechargeable batteries/spent batteries in accordance with the valid legal specifications. Pos: 13.2 /TD/Sicherheit und Umwelt/Umwelt schtzen/Produkt entsorgen @ 0\mod_1173780307072_79.doc @ 357

> At the end of its useful life, send the product to the separate collection for electric and electronic devices (observe local regulations) or return the product to Testo for disposal. Pos: 14 /TD/--- Seitenwechsel --- @ 0\mod_1173774430601_0.doc @ 283 0970 4020 en 01 9 3 Specifications Pos: 15 /TD/berschriften/3. Leistungsbeschreibung @ 0\mod_1173774791554_79.doc @ 301 3 3.1. Pos: 16 /TD/berschriften/3.1 Verwendung @ 0\mod_1176211016437_79.doc @ 695 Pos: 17 /TD/Leistungsbeschreibung/Verwendung/testo Saveris/01 Einsatzgebiete @ 1\mod_1197376440546_79.doc @ 6184 Specifications Use Areas of application The testo Saveris measurement system can be used everywhere where temperature and humidity-sensitive products are produced and stored, for example in the food industry (cold rooms, deep freeze rooms and refrigeration chambers), in smaller companies in food production, as well as bakeries and butchers, or in the pharmaceuticals industry (temperature-

controlled cabinet, storage of drugs). But the measurement system can also be used in other industries for monitoring the building air conditioning as well as for quality assurance in store rooms for products in every phase of production. The testo Saveris measurement system is only used to monitor readings, not to control and regulate them. Pos: 18 /TD/Leistungsbeschreibung/Verwendung/testo Saveris/02 Funktionsweise @ 1\mod_1197376538421_79.doc @ 6194 How it works Pos: 19 /TD/Leistungsbeschreibung/Verwendung/testo Saveris/02b Funktionsweise SBE @ 1\mod_1197980459890_79.doc @ 6553 Pos: 20 /TD/Leistungsbeschreibung/Verwendung/testo Saveris/02c Funktionsweise @ 1\mod_1197980516265_79.doc @ 6573 with the measuring system. These readings are The ambient or process data for the temperature and air humidity in closed rooms are measured and recorded using probes transmitted to the Saveris base them. A router can be used to optimize the radio in the event of difficult structural conditions. The data are called up from the and saved in a database. Saveris base by a computer Very long distances can be bridged by using a converter converts the radio signals of the probe or router and then via radio, which then saves that 10 0970 4020 en 01 testo AG 3 Specifications Pos: 21 /TD/Leistungsbeschreibung/Verwendung/testo Saveris/04 Haftungsausschluss @ 1\mod_1197376616906_79.doc @ 6214 can be transmits these measurement data to the base via Ethernet cable. In addition the so-called Ethernet probes connected to the base using an Ethernet cable. With the testo Saveris software you thereby always have an overview of the development of the readings in the individual areas. Exclusion of liability The testo Saveris system was developed to consolidate a large amount of measurement data from spatially separated probes in the Saveris software, document it without interruption and issue alarms in the event of irregularities. The testo Saveris system is not designed to undertake control and regulation tasks according to the regulations. Particularly the alarms are not to be perceived as so-called critical alarms with which the endangerment of life or limb or damage to equipment can be averted. Liability on the part of Testo AG for damages from this type of application is excluded. Pos: 22 /TD/berschriften/3.2 Systemvoraussetzungen @ 0\mod_1187269645125_79.doc @ 2385 0970 4020 en 01 11 3 Specifications 3.2. Pos: 23 /TD/Leistungsbeschreibung/Systemvoraussetzungen/Betriebssystem (Saveris) @ 0\mod_1191917806171_79.doc @ 5423 Pos: 24 /TD/Leistungsbeschreibung/Systemvoraussetzungen/Rechner (Saveris) @ 0\mod_1191918060734_79.doc @ 5433 System requirements Operating system The software can be run on the following operating systems:

Windows 2000 SP4 Windows XP SP2 Windows Vista Computer For smooth work with the software, the following requirements should be met:

Pentium processor of at least 800 MHz or equivalent 256 MB RAM 4.5 GB unused hard drive capacity with maximum size of the database CD-ROM or DVD-ROM drive USB 2.0 interface Microsoft Internet Explorer 6.0 SP1 or higher Microsoft Windows Installer 3.1 or higher MDAC 2.8 SP1 or higher

.NET Framework 2.0 or higher If Windows Installer 3.1, MDAC 2.8 SP1 and .NET Framework 2.0 are not present on the computer, these are installed with the Saveris software. Microsoft Outlook If you use Lotus Notes, you must set up the adapter for the Exchange Server. If necessary, consult with your system administrator. Pos: 25 /TD/--- Seitenwechsel --- @ 0\mod_1173774430601_0.doc @ 283 12 0970 4020 en 01 testo AG 4 Product description Pos: 26 /TD/berschriften/4. Produktbeschreibung @ 0\mod_1173774846679_79.doc @ 310 4 Product description Pos: 27 /TD/Produktbeschreibung/bersicht/testo Saveris/Hinweis CE @ 1\mod_1204905902234_79.doc @ 12612 As declared in the declaration of conformity, this product complies with Directive 2004/108/EC. Pos: 28 /TD/Produktbeschreibung/bersicht/testo Saveris/00 Base/01 Base @ 0\mod_1189504245140_79.doc @ 4274 4.1. Saveris base Front Display for the visualization of the alarms and user guidance. Antenna. Warning LED Keypad for operation of the Saveris base. LED for status display. 0970 4020 en 01 13 4 Product description Rear 1 2 3 4 5 7 6 USB cable connection. Network cable connection. Connection of power supply via mains plug. Connection of power supply via 24 V AC/DC and alarm relay. Connection for external GSM antenna (only in combination with GSM module). Eyelets for strain relief. Guide for stand or wall bracket. 14 0970 4020 en 01 testo AG 4 Product description Pos: 29 /TD/Produktbeschreibung/bersicht/testo Saveris/00 Base/02 Base GSM @ 1\mod_1196957066669_79.doc @ 6084 4.2. Saveris base GSM module (optional)

Pos: 30 /TD/Produktbeschreibung/bersicht/testo Saveris/00 Base/Bedientasten @ 0\mod_1190205422265_79.doc @ 4893 4.2.1. Insertion slot for the SIM card. Control keys Key

[Esc]

[Enter]

Pos: 31 /TD/Produktbeschreibung/bersicht/testo Saveris/00 Base/Displayanzeigen @ 0\mod_1190205462296_79.doc @ 4902 Explanation Switches from the Login menu to the Info System menu. In the Info System menu starts up the login status for the probe. Navigation buttons for changing the menus. 0970 4020 en 01 15 4 Product description 4.2.2. Displays Info Base menu IP address of the Saveris base. The IP address is the unique identification number of the Saveris base within the network. Netmask that is saved in the Saveris base. The netmask is the basic address of the network in which the Saveris base is integrated. Address of the gateway that is saved in the Saveris base. A gateway is a transfer point between networks that work with different protocols or data formats. A "translation" into the respective other protocol or data format is then performed by the gateway. Fill level of the internal rechargeable battery in the event of power failure. The display is only shown with an interrupted power supply. Fill level of the memory of the Saveris base. Keys that are assigned functions in this menu. 16 0970 4020 en 01 testo AG 4 Product description Info Alarm menu Number of the newly triggered alarms. Keys that are assigned functions in this menu. Alarm detail menu Date on which the alarm was triggered. Time at which the alarm was triggered. Probe for which the alarm was triggered. Number of the alarm and total amount of alarms. Keys that are assigned functions in this menu. 0970 4020 en 01 17 4 Product description Info GSM menu Name of the network operator. Display of the reception quality. Telephone number that is saved on the SIM card. Keys that are assigned functions in this menu. Info System menu Number of connected radio probes. Number of connected Ethernet probes. Number of connected routers. Number of connected converters. Keys that are assigned functions in this menu. 18 0970 4020 en 01 testo AG 4 Product description Login 1/2 menu Status display when probes are connected. Login 2/2 menu Keys that are assigned functions in this menu. This display is shown if no login signal was received from a probe within approx. 30 seconds. 0970 4020 en 01 19 4 Product description Pos: 32 /TD/Produktbeschreibung/bersicht/testo Saveris/01 Funkfhler/00 Funkfhler @ 0\mod_1190281497265_79.doc @ 5041 4.3. 4.3.1. Save radio probe Radio probe without display Pos: 33 /TD/Produktbeschreibung/bersicht/testo Saveris/01 Funkfhler/01 Funkfhler ohne Display @ 0\mod_1189496319546_79.doc @ 4255 LED for status display. Antenna for radio transmission of measurement data to the Saveris base. Guide rails for the wall bracket. Catch for the wall bracket. Ports, depending on type. Connect button for connecting the probe to the Saveris base and for a status request during operation. 20 0970 4020 en 01 testo AG 4 Product description Pos: 34 /TD/Produktbeschreibung/bersicht/testo Saveris/01 Funkfhler/02 Funkfhler mit Display @ 0\mod_1189496687343_79.doc @ 4264 4.3.2. Radio probe with display Display for showing reading, battery and connection status as well as the field strength of the radio link. LED for status display. Antenna for radio transmission of measurement data to the Saveris base. Guide rails for the wall bracket. Catch for the wall bracket. Ports, depending on type. Connect button for connecting the probe to the Saveris base and for a status request during operation. 0970 4020 en 01 21 4 Product description Displays Quality of the radio link. Indicator as to whether a communication with the Saveris base or a router or converter is performed. Battery status. Unit of the reading:

% for humidity measurement mA for current measurement Reading. Indicator as to whether the reading has exceeded the upper

( ) limit value or undershot the lower ( ) limit value. Number of the channel. Display for a second sensor in the probe. Ctd or Ftd for dewpoint measurement. Pos: 35 /TD/Produktbeschreibung/bersicht/testo Saveris/01 Funkfhler/03 Bedeutung der LED @ 0\mod_1190807440000_79.doc @ 5133 22 0970 4020 en 01 testo AG 4 Product description Meaning of the LED displays at the probes Connecting to the Saveris base Hold the connect button on the rear of the probe until the LED begins to flash orange. Representation Flashing orange Explanation An attempt to establish the connection to the Saveris base. The connection to the Saveris base was performed successfully. The connection to the Saveris base failed. Lit up green Lit up red Status displays during operation Briefly press the connect button on the rear of the probe once and the LED shows the status of the connection to the Saveris base. Representation Flashing 3 x green A very good connection to the Saveris Explanation base exists. Flashing 2 x green A good connection to the Saveris base exists. Flashing 1 x green A borderline connection to the Saveris Flashing 3 x red base exists. No connection to the Saveris base exists. 0970 4020 en 01 23 4.3.3. 4 Product description Pos: 36 /TD/Produktbeschreibung/bersicht/testo Saveris/02 Ethernet-Fhler/00 Ethernet-Fhler @ 1\mod_1197555728828_79.doc @ 6366 4.4. Saveris Ethernet probes Pos: 37 /TD/Produktbeschreibung/bersicht/testo Saveris/02 Ethernet-Fhler/02 Ethernet-Fhler @ 1\mod_1197555730062_79.doc @ 6386 1 2 3 4 10 9 5 8 7 6 Display for showing the reading and transmission information. LED for status display. Connect button. Catch for the wall bracket. Guide rails for the wall bracket. Input for external probes. Input for external 24 V AC/DC power supply. Input for Ethernet interface. Input for service interface. Input for power supply via mains unit. 24 0970 4020 en 01 testo AG Displays 4 Product description Quality of the connection. Battery status. Indicator as to whether a communication with the Saveris base is performed. Unit of the reading:

% for humidity measurement mA for current measurement Reading. Indicator as to whether the reading has exceeded the upper

( ) limit value or undershot the lower ( ) limit value. Number of the channel. Display for a second sensor in the probe. Ctd or Ftd for dewpoint measurement. 0970 4020 en 01 25 4 Product description Pos: 38 /TD/Produktbeschreibung/bersicht/testo Saveris/03 Router/01 Router @ 1\mod_1197555862937_79.doc @ 6406 4.5. Saveris router 8 7 1 2 3 4 5 6 Antenna for the radio transmission of the measurement data LED for status display Connect button for connecting the router to the Saveris base and for a status request during operation Catch for the wall bracket Guide rails for the wall bracket Input for external 24 V AC/DC power supply. Input for service interface Input for power supply via mains unit 26 0970 4020 en 01 testo AG 4 Product description Pos: 39 /TD/Produktbeschreibung/bersicht/testo Saveris/04 Converter/01 Converter @ 1\mod_1197557086312_79.doc @ 6416 4.6. Saveris converter 9 8 1 2 3 4 5 7 6 Antenna for receiving the measurement data. LED for status display. Connect button for connecting the converter to the Saveris base and for a status request during operation. Catch for the wall bracket. Guide rails for the wall bracket. Input for external 24 V AC/DC power supply. Input for connecting the network cable. Input for service interface. Input for power supply via mains unit. Pos: 40 /TD/--- Seitenwechsel --- @ 0\mod_1173774430601_0.doc @ 283 0970 4020 en 01 27 5 First steps Pos: 41 /TD/berschriften/5. Erste Schritte @ 0\mod_1173774895039_79.doc @ 319 5 5.1. Pos: 42 /TD/Erste Schritte/testo Saveris/01 Lieferumfang/00 Lieferumfang prfen @ 0\mod_1189429809359_79.doc @ 4194 Pos: 43 /TD/Erste Schritte/testo Saveris/01 Lieferumfang/01 Set 1 @ 0\mod_1189429830390_79.doc @ 4206 5.1.1. First steps Checking the scope of delivery If you have purchased a Saveris set, the following components are included in the delivery. Set 1 The following components are included in the delivery of the first set:

Product CD with testo Saveris software CD with instruction manual in PDF format as well as virtual installation description Printed brief instructions for commissioning Saveris Base without GSM module with wall bracket and stand Mains unit for the Saveris base 3 Saveris T1 NTC radio probes without display with wall bracket and batteries Pos: 44 /TD/Erste Schritte/testo Saveris/01 Lieferumfang/01 Set 1 SBE @ 1\mod_1197989725515_79.doc @ 6673 USB cable for the connection of the Saveris base to the computer. Pos: 45 /TD/Erste Schritte/testo Saveris/01 Lieferumfang/02 Set 2 @ 0\mod_1189429865593_79.doc @ 4216 5.1.2. Set 2 The following components are included in the delivery of the second set:

Product CD with testo Saveris software CD with instruction manual in PDF format as well as virtual installation description Printed brief instructions for commissioning Saveris Base without GSM module with wall bracket and stand Mains unit for the Saveris base Router 28 0970 4020 en 01 testo AG 5 First steps Mains unit for the router 5 Saveris T1D NTC radio probes with display and with wall bracket and batteries Pos: 46 /TD/Erste Schritte/testo Saveris/01 Lieferumfang/02 Set 2 SBE @ 1\mod_1197989908312_79.doc @ 6713 USB cable for the connection of the Saveris base to the computer. Pos: 47 /TD/Erste Schritte/testo Saveris/01 Lieferumfang/03 Set 3 @ 0\mod_1191325080125_79.doc @ 5352 5.1.3. Set 3 The following components are included in the delivery of the third set:

Product CD with testo Saveris software CD with instruction manual in PDF format as well as virtual installation description Printed brief instructions for commissioning Saveris base with GSM module and wall bracket, stand and GSM antenna The SIM card for sending SMS messages is not included in the delivery and must be purchased separately from a provider. It is recommended that you use a contract card instead of a so-called prepaid card, as no alarm messages can be sent if you use up your credit. Mains unit for the Saveris base Router Mains unit for the router 5 Saveris T1D NTC radio probes with display and with wall bracket and batteries Pos: 48 /TD/Erste Schritte/testo Saveris/01 Lieferumfang/03 Set 3 SBE @ 1\mod_1197989921984_79.doc @ 6723 USB cable for the connection of the Saveris base to the computer. Pos: 49 /TD/--- Seitenwechsel --- @ 0\mod_1173774430601_0.doc @ 283 0970 4020 en 01 29 5 First steps Pos: 50 /TD/Erste Schritte/testo Saveris/00 Ablaufdiagramm Inbetriebnahme @ 0\mod_1189581707421_79.doc @ 4454 5.2. Flowchart Start Base with GSM module?

Inserting SIM card

(page 30) Connecting USB cable and power supply to base

(page 31 / page 32) Inserting batteries in probe

(page 35) Connecting probe to Saveris base

(page 36) Connecting USB cable and power supply to base

(page 31 / page 32) Connecting GSM antenna

(page 32) Inserting batteries in probe

(page 35) Connecting probe to Saveris base

(page 36) Use router?

Yes Integrating router

(page 49) No 30 0970 4020 en 01 testo AG 5 First steps Installing software

(page 38) Use Ethernet probes?

Yes No Integrating Ethernet probe

(page 57) Use converter?

Yes Integrating converter

(page 68) No Connecting Saveris base to PC and starting up hardware

(page 39) Starting software

(page 48) Performing the test run

(page 69) Mounting the hardware

(page 71) Creating zones

(page 86 ) Configuring the alarms

(page 87 ) End 0970 4020 en 01 31 5 First steps Pos: 51 /TD/Erste Schritte/testo Saveris/00 SIM-Karte einsetzen @ 1\mod_1197557316734_79.doc @ 6426 5.3. Inserting SIM card (optional) With a Saveris base with integrated GSM module, you must insert the SIM card. The SIM card for sending SMS messages is not included in the delivery and must be purchased separately from a mobile phone provider. It is recommended that you use a contract card instead of a so-called prepaid card, as no alarm messages can be sent if you use up your credit. 1. Loosen screw connection the Saveris base. and remove base plate from 2. Insert SIM card in the card slot When inserting, the SIM card the side. If the card is inserted, a spring pushes the catch back and the SIM card is thus secured in the card slot. as shown. pushes the catch to 3. Place the base plate on the base and screw it down. 32 0970 4020 en 01 testo AG Pos: 52 /TD/Erste Schritte/testo Saveris/01 USB-Kabel an Base anschlieen @ 0\mod_1190210196906_79.doc @ 4930 5.4. Connecting USB cable to the Saveris base 5 First steps 2 1 3 screw connection. 1. Loosen and remove 2. Remove cover 3. Plug the USB cable from Saveris Base. into the Saveris base. 0970 4020 en 01 33 5 First steps Pos: 53 /TD/Erste Schritte/testo Saveris/01 Antenne anschlieen @ 1\mod_1197628729203_79.doc @ 6463 5.5. Connecting GSM antenna (optional) Pos: 54 /TD/Erste Schritte/testo Saveris/01b SBE Antenne anschlieen @ 1\mod_1202123697639_79.doc @ 8045 3 2 1 Pos: 55 /TD/Erste Schritte/testo Saveris/01c Antenne anschlieen @ 1\mod_1202123742093_79.doc @ 8056

Place antenna cable screw on

. Pos: 56 /TD/Erste Schritte/testo Saveris/02 Base mit Stromversorgung verbinden @ 0\mod_1188477940515_79.doc @ 2955 on the coaxial connection and 34 0970 4020 en 01 testo AG 5 First steps 5.6. Pos: 57 /TD/Erste Schritte/testo Saveris/02a-1 Stromversorgung ber Netzteil verbinden @ 0\mod_1191328326843_79.doc @ 5392 5.6.1. Connecting Saveris base with power supply You can connect the Saveris base to the power supply via the included mains unit or via the 24 V AC/DC plug-in/screw terminal. Power supply via mains unit Pos: 58 /TD/Erste Schritte/testo Saveris/02a-2 SBE Stromversorgung ber Netzteil verbinden @ 1\mod_1200057993442_79.doc @ 7524 3 4 Pos: 59 /TD/Erste Schritte/testo Saveris/02a-3 Stromversorgung ber Netzteil verbinden @ 1\mod_1200058046031_79.doc @ 7546 2 1 1. Connect mains cable 2. Ensure that cabling cannot be pulled out using a cable tie at to the Saveris base. the eyelets for strain relief

. 3. Place the cover

. on the Saveris base and screw it down 4. Connect mains plug to the power supply.

- The Saveris base automatically switches on after selecting the language at the base and is ready for operation. 0970 4020 en 01 35 5 First steps Pos: 60 /TD/Erste Schritte/testo Saveris/02b-1 Stromversorgung ber AC/DC verbinden @ 0\mod_1191328406187_79.doc @ 5402 5.6.2. Power supply via plug-in/screw connection

(optional) Pos: 61 /TD/Erste Schritte/testo Saveris/02b-2 SBE Stromversorgung ber AC/DC verbinden @ 1\mod_1202124389613_79.doc @ 8067 1 2 1 4 5 1 3 Pos: 62 /TD/Erste Schritte/testo Saveris/02b-3 Stromversorgung ber AC/DC verbinden @ 1\mod_1202124473316_79.doc @ 8089 2 no. 1 and no. 2. 1. Loosen clamping screws 2. Insert cable 3. Tighten clamping screws. 4. Ensure that cabling cannot be pulled out using a cable tie at in the terminals as shown. the eyelets for strain relief

. 5. Place the cover

. on the Saveris base and screw it down

- The Saveris base automatically switches on after selecting the language at the base and is ready for operation. 36 0970 4020 en 01 testo AG Pos: 63 /TD/Erste Schritte/testo Saveris/02 b Batterien am Fhler einlegen @ 0\mod_1191322124515_79.doc @ 5263 5.7. Inserting batteries in the probes 5 First steps 3 2 1 on the rear of the probe. 1. Loosen screws 2. Remove housing cover of probe 3. Insert batteries

. Ensure that you insert the batteries correctly. The correct polarity is illustrated in the respective battery compartment. 4. Place housing cover on probe housing. 5. Screw cover down close to the housing. A control switch is located in the housing that is actuated through the cover. To do so, the cover must be screwed to the probe housing without a gap. If the cover is not screwed on without a gap, the probe cannot be operated. 0970 4020 en 01 37 5 First steps Pos: 64 /TD/Erste Schritte/testo Saveris/03 Fhler an der Base anmelden @ 0\mod_1188478029328_79.doc @ 2964 Integrating Saveris router (optional) Page 52 5.8. Connecting radio probe You can connect a maximum of 15 probes to the Saveris base directly via radio. In addition, you can operate 15 more probes at the Saveris Base per converter and 5 per router. Note that a maximum of 254 channels can be processed by the Saveris software. 1. Change to the Info System menu at the Saveris base with the [] button. 2. Press [Enter] to call up the Login function.

- The status bar in the display shows that the Saveris base is ready for probe detection. 38 0970 4020 en 01 testo AG 5 First steps 3. Hold down the connect key on the rear of the probe until the LED

- The LED at the probe begins to flash orange. at the probe briefly turns green if this was detected by the Saveris base. The LED at the Saveris base briefly flashes green and a prompt appears in the display of the base for the connection of more probes or routers. Multiple probes cannot be connected at the Saveris base simultaneously. Multiple probes can only be connected one after the other. 4. At the Saveris base, press the

[Esc] key if no more components are to be connected.

- A note on the required performance of the startup assistant is shown on the display for about ten seconds. Then the Saveris base changes to the Info System menu in which the number of connected components is now shown. Press [Enter] if further components are to be connected;

see previous step. 0970 4020 en 01 39 5 First steps 5. Position the probes precisely at their measurement points to check the radio link. 6. Briefly press the connect key on the rear of the probe. at the probe flashes If the LED green, a radio link exists. red, no radio link exists. If no radio link to the Saveris base exists even after a change of location of the probe, connect a router to the Saveris base; see Integrating Saveris router (optional), page 52. Pos: 65 /TD/Erste Schritte/testo Saveris/05a Saveris-Software installieren @ 0\mod_1188478151968_79.doc @ 2991 5.9. Installing Saveris software Administrator rights are required to install programs and drivers under Windows 2000 SP4, XP and Vista. 1. Insert CD with Saveris software in the CD-ROM drive. If the installation program does not start automatically, open Windows Explorer and start the Setup.exe file on the product CD. During the installation of the Saveris software the licence-free database system Microsoft SQL Server 2005 Express is installed if this is not already present. The database is protected by the so-called "sa password", the password for the database administrator, to prevent unintended changes to the database. If a software exists on the computer used that uses the SQL Server 2005 Express and a password was already set when this was installed, you then require this sa password to be able to perform the installation of the Saveris software. 2. Follow the directions of the installation wizard. The USB driver for the connection of the Saveris base is installed with the Saveris software. If the Saveris base is not recognized as new hardware when connected to the computer, the USB driver must be manually installed. 0970 4020 en 01 testo AG 40 Pos: 66 /TD/Erste Schritte/testo Saveris/04 Hardware inbetriebnehmen @ 0\mod_1188478113640_79.doc @ 2982 5 First steps 5.10. Starting up hardware The following preconditions must be fulfilled for the startup of the hardware:

all probes are connected to the Saveris base and the Saveris software is installed on the computer. the Saveris base is ready for operation, 1. Connect the Saveris base to the computer via the USB cable.

- The startup assistant starts. Under Windows 2000, you must manually call up the assistant using Start | All Programs | Testo | Startup Assistant. 2. Click on [Continue >].

- The general system settings of the Saveris base are shown. 0970 4020 en 01 41 5 First steps 3. Click on [Synchronize] to apply the date and time from the operating system of the computer to the Saveris base. 4. Click on [Continue >].

If the Saveris base is equipped with a GSM module the dialogue for entering the basic settings for the SMS service is shown. If there is no GSM module continue with step 7. 42 0970 4020 en 01 testo AG 5 First steps 5. Enter the PIN and the number of the SMS centre in the fields of the same name. You can find the PIN and the number of the SMS centre in the documents for your SIM card.

- The list of the probes registered in the Saveris base is shown. The fields of the Channel name column for probe designations are required fields. You must fill in these fields to be able to continue with the startup. The Lower limit and Upper limit fields are already preassigned limit values, but you can adapt the limit values to your requirements. The limit values determine as of which reading the Saveris base triggers an alarm. 6. Click in the Channel name field and enter the designation of the probe, e.g. "Room 1". Assign channel names that are not longer than 15 characters. 0970 4020 en 01 43 5 First steps

Click in the Lower limit field and change the lower limit value. If all probes are to have the same limit value, click on the column title with the right mouse button and then click on Apply to all in the context menu. This also applies for the upper limit value in the next step.

Click in the Upper limit field and change the upper limit value.

> Click in the TC type field and enter the type of thermocouple

(Enter: J, K, S or T) if this information is required for the instrument. Perform step 5 and the following for all other probes until all required fields are filled. 7. Click on [Continue >].

- The settings for measuring cycle, the alarm delay and the alarm issue are shown. 44 0970 4020 en 01 testo AG 5 First steps 8. Enter Measuring cycle and determine its Unit. The measuring cycle determines in which intervals a new reading is saved in the Saveris base. Possible settings for the unit:

sec min h The smallest transfer rate for radio probes is one minute. Later the settings can be changed for every probe separately in the software.

(second)

(minute)

(hour). 9. Determine Alarm delay. If you enter the value "5" for example, an alarm is not triggered by the Saveris base until the fifth time that the limit value is exceeded. Later the settings can be changed for every probe separately in the software. 10. Determine the issue options for the limit value alarms. Possible options:

SMS (optional with Saveris base with GSM module) E-mail Relay of the Saveris base. The system alarms are above all used for pointing out irregularities in the measurement system. If no reaction follows the system alarms, uninterrupted data recording is not guaranteed. If a system alarm is issued via SMS or E-mail time delays may occur. The notification function via SMS is only available if the Saveris base is equipped with a GSM module. Later the settings can be changed for every probe separately in the software. 0970 4020 en 01 45 5 First steps 11. Click on [Continue >].

If a router is connected at the Saveris base the configuration of the connection type for the probes is shown. If no router is connected continue with step 15. 12. Click in the Connection type cell of the probe which is to be assigned to a router.

- The cell is shown as a selection list. 13. Open the selection list via the button to which the probe is to be assigned. and select the router 14. Perform steps 12 and 13 for all remaining probes whose measurement data is to be transmitted to the Saveris base via a router. 15. Click on [Continue >].

If the Saveris base is equipped with a GSM module, the settings for the SMS alarms are shown. If there is no GSM module continue with step 28. 46 0970 4020 en 01 testo AG 5 First steps 16. Enter the Telephone number of the recipient of the alarm messages. Enter with country code, network or area code and local number. 17. Activate Forward checkbox if the alarm message should be sent to a second recipient if recipient 1 does not respond.

- The min list field and the 2nd telephone number input field are shown. 18. Use the min list field to determine after what time span the alarm message should be forwarded if recipient 1 does not respond. 19. Enter the telephone number to which the alarm message should be forwarded in the 2nd telephone number field. Enter with country code, network or area code and local number. 20. Enter a text in the Message field that should be attached to the alarm message. You can send a test report via the button of the same name to check whether all settings are correct. 0970 4020 en 01 47 5 First steps 21. Click on [Continue >].

- The settings for the reporting are shown. These specifications are applied as the default setting for the reporting. You can change these settings or create new configurations for the reports at any time;

see chapter "Report settings". 22. Deactivate Automatically create reports checkbox if this function should not be used. In this case, continue with step 20.

23. Determine the intervals in which the reports should be automatically created. 24. Determine which content the reports should include.

Activate Send to receiver checkbox if reports should be sent by e-mail.

- The input fields for the e-mail address and the subject line as well as the [Address book] button are shown.

> Enter the e-mail address of the recipient in the input field or select the recipient from the Outlook contacts using the

[Address book].

> Enter text for the subject line of the e-mail. 25. Enter the address under Cover sheet address field that should be displayed on the top of the report. 48 0970 4020 en 01 testo AG 5 First steps 26. Click on [Continue >].

- The wizard is shown with the information on the start of measurement and the list of the registered probes. 27. Postpone the start of measurement, if necessary.

Change the project name in the Name field. Consider a clear-cut name for the project that you will be able to easily associate later. The project name cannot subsequently be changed. 28. Click on [Finish] to complete the startup of the hardware.

- A dialogue for displaying and printing the configuration settings is shown. 0970 4020 en 01 49 5 First steps 29. Click on

[Yes] if the settings should be shown in the Internet browser and printed from there.

[No] if the settings should not be shown. The dialogue for the conclusion of the startup is shown. 30. Consecutively press the connect button on all probes to synchronize the probes. 31. Close the dialogue with [OK].

- The hardware is now ready for operation. Pos: 67 /TD/Produkt verwenden/testo Saveris/01 Start/01_Saveris-Software starten @ 0\mod_1189076832593_79.doc @ 3933 50 0970 4020 en 01 testo AG 5.11. Starting Saveris software 5 First steps Ensure that the Saveris software is not already open, for example in multi-user operation under Windows Vista. 1. Select [Start] | All Programs | Testo | Saveris.

- The Testo Saveris software program window is opened with the Select project dialogue. If the software will not start, check whether the testo tdassvcs service is started in the service management of the operating system and restart it, if needed. 2. Select the Only active projects option if the data from a running project should be opened All projects option if the data from a completed project should be opened. 3. Select the project that is to be opened in the tree structure. 4. Confirm with [OK].

- The Testo Saveris software program window is shown with the selected data record in the foreground. Pos: 68 /TD/Erste Schritte/testo Saveris/Hardware erweitern/Messsystem erweitern @ 1\mod_1197551581796_79.doc @ 6327 0970 4020 en 01 51 Pos: 69 /TD/Erste Schritte/testo Saveris/Hardware erweitern/01 Router einbinden/00 Router einsetzen @ 1\mod_1197549116203_79.doc @ 6304 5 First steps 5.12. 5.12.1. Expand measuring system In this chapter, you learn how to integrate the Saveris router, converter and Ethernet probes into the measuring system. Integrating Saveris router (optional) You can use a Saveris router to optimize the radio communication with poor structural conditions or to extend the transmission path. The router receives the signals of the radio probes and forwards them to the Saveris base. The measurement data of up to five radio probes can be transmitted per router to the Saveris base. Multiple routers can be integrated in the measuring system but cannot be connected in series to cover extremely long transmission paths. In this case, a converter should be used; see "Integrating Saveris converter (optional)". The integration of a router is performed in three steps:

1. Connect router to the power supply. 2. Connect router to the Saveris base. 3. Assign radio probes to the router. When positioning a router please note the following points:

When integrating several probes via a router, the probe with the weakest radio link determines the position of the router. Mount the router in such a way that this probe has an ideal radio link. Probes and router should be mounted so that the antennas are aligned upwards. The radio link between probes and the router as well as the router and the Saveris base should not be strongly influenced by structural conditions (walls, shelves etc.). Mount the router and probe so that "visual contact"

exists with as many radio links as possible. 52 0970 4020 en 01 testo AG Pos: 70 /TD/Erste Schritte/testo Saveris/Hardware erweitern/01 Router einbinden/01 Router-Strom @ 1\mod_1197548324640_79.doc @ 6294 5.12.1.1. Connecting router with power supply (mains unit) 5 First steps 1 2

. 1. Open cover 2. Insert mains cable 3. Insert mains plug into a socket. The wall mounting of a router is performed in the same ways as for a probe; see "Mounting the probe on the wall". 0970 4020 en 01 53 5 First steps Pos: 71 /TD/Erste Schritte/testo Saveris/Hardware erweitern/01 Router einbinden/01b Router-ACDC @ 1\mod_1197978273593_79.doc @ 6543 5.12.1.2. Connecting router with power supply (AC/DC) 3 2 4 1

. 1 Remove protection caps 2. Loosen screws 3. Remove housing cover of router 4. Unscrew and remove cover cap of cable opening on the rear of the router. 54 0970 4020 en 01 testo AG 5 First steps and insert in 7 6 5 8

. 5. Loosen clamping screws 6. Route cabling the terminals through the cable opening

. It is not necessary to note the polarity. 7. Tighten clamping screws. 0970 4020 en 01 55 5 First steps 3 2 1 8. Place housing cover 9. Screw on housing cover 10. Insert protection caps

. on the router. The wall mounting of a router is performed in the same ways as for a probe; see "Mounting the probe on the wall". Pos: 72 /TD/Erste Schritte/testo Saveris/Hardware erweitern/01 Router einbinden/02 Router anmelden @ 1\mod_1197548238578_79.doc @ 6274 56 0970 4020 en 01 testo AG 5.12.1.3. Connecting router 5 First steps You can connect a maximum of 15 routers to the Saveris base. Also note that connecting multiple routers in series is not possible. 1. Change to the Info System menu at the Saveris base with the [] button. 2. Press [Enter] to call up the Login function.

- The status bar in the display shows that the Saveris base is ready for router detection. 0970 4020 en 01 57 5 First steps 3. Hold down the connect key on the rear of the router until the LED

- The LED at the router begins to flash orange. at the router briefly turns green if this was detected by the Saveris base. The LED at the Saveris base briefly flashes green and a prompt appears in the display of the base for the connection of more probes or routers. Multiple routers cannot be connected at the Saveris base simultaneously. Multiple routers can only be connected one after the other. 4. At the Saveris base, press the

[Esc] key if no more components are to be connected.

- A note on the required performance of the startup assistant is shown on the display for about ten seconds. Then the Saveris base changes to the Info System menu in which the number of connected components is now shown. Press [Enter] if further components are to be connected;

see previous step. Pos: 73 /TD/Erste Schritte/testo Saveris/Hardware erweitern/01 Router einbinden/03 Fhler zuweisen @ 1\mod_1197548250906_79.doc @ 6284 5.12.1.4. Assigning probes To assign a probe to a router, both must be connected in the Saveris base. 58 0970 4020 en 01 testo AG 5 First steps 1. Under Start | All Programs | Testo click on Saveris Startup Assistant.

- The welcome dialogue of the startup assistant is shown. 2. Click on [Continue >].

- The System status dialogue with the General tab is shown. 3. Change to Router tab. The Direct connection type means that the probe is connected directly in the Saveris base or a converter. 0970 4020 en 01 59 5 First steps 4. Click in the Connection type cell of the probe which is to be assigned to a router.

- The cell is shown as a selection list. 5. Open the selection list via the button to which the probe is to be assigned. and select the router 6. Position the probe within the radio range of the base and briefly push the connect button on the rear of the probe once.

> Perform steps 4 to 6 for all remaining probes whose measurement data is to be transmitted to the Saveris base via a router. 7. Position the probes and router at their mounting locations to check the radio links. 8. Briefly press the connect key on the rear of the probe. If the LED on the front of the probe flashes green, a radio link to the router exists. red, no radio link to the router exists. 60 0970 4020 en 01 testo AG 5 First steps 9. Briefly press the connect key on the rear of the router. If the LED on the front of the router flashes green, a radio link to the Saveris base exists. red, no radio link to the Saveris base exists. If no radio link exists after changing the location of the probe and/or router, introduce a converter; see

"Integrating Saveris converter (optional)". Pos: 74 /TD/Erste Schritte/testo Saveris/Hardware erweitern/03 Ethernet-Fhler einbinden/00 Ethernet-Fhler einsetzen @ 1\mod_1197552336953_79.doc @ 6336 5.12.2. Integrating Saveris Ethernet probe (optional) In addition to the Saveris radio probes, you can use probes that are connected to the Ethernet interface of the Saveris base. This also enables the data transfer from the probe to the base over long stretches if you do not wish to use a router or converter. You must enter the IP address of the Saveris base in the Ethernet probe using the separate parameterization software. If your computer has the Dynamic Host Configuration Protocol (DHCP), its IP address is automatically assigned to the Ethernet probe. If this is not the case, you must automatically assign the IP address to the probe. This chapter contains all required information for this. You can connect several Ethernet probes to the Saveris base using a so-called switch. In this context, note that a maximum of 150 probes can be connected or 254 measurement channels recorded at the Saveris base. Pos: 75 /TD/Erste Schritte/testo Saveris/Hardware erweitern/03 Ethernet-Fhler einbinden/01 Netzwerkkabel @ 1\mod_1203421433000_79.doc @ 8193 0970 4020 en 01 61 5 First steps 5.12.2.1. Connecting the network cable. Use a network cable with a diameter between 5.8 mm and 6.8 mm to ensure the leaktightness of the probe housing. 2 1 1. Loosen screws housing cover on the rear of the probe and remove the

. 62 0970 4020 en 01 testo AG 5 First steps 4 3 5 2. Loosen screws remove panel. at the panel for the network cable and 3. Slide network cable with the tongue pointing up into the Ethernet jack until it engages. If you wish to connect the Saveris Ethernet probe to the power supply via the 24 V AC/DC plug-in/screw terminal and not via the mains adapter, do not screw on the housing cover until after connecting the power supply. The connection for the power supply via plug-in/screw terminal is performed as with the Saveris router; see Connecting router with power supply (AC/DC), page 54. 0970 4020 en 01 63 5 First steps 4. Place the housing cover on the probe and screw it down. You can connect the probe to the network via a network hub or directly at the Saveris base via the Ethernet jack. Pos: 76 /TD/Erste Schritte/testo Saveris/Hardware erweitern/03 Ethernet-Fhler einbinden/01c Stromversorgung @ 1\mod_1203423817781_79.doc @ 8270 5.12.2.2. Connecting Ethernet probe with power supply (mains unit) The connection for the power supply via 24 V AC/DC plug-in/screw terminal is performed as with the Saveris router; see Connecting router with power supply

(AC/DC), page 54. 1 2 1. Open the cover 2. Insert mains cable 3. Insert mains plug into a socket. for the power supply. 64 0970 4020 en 01 testo AG Pos: 77 /TD/Erste Schritte/testo Saveris/Hardware erweitern/03 Ethernet-Fhler einbinden/01b USB-Kabel @ 1\mod_1203423817203_79.doc @ 8259 5.12.2.3. Connecting USB cable and installing driver 5 First steps 1 3 4 2 1. Open the cover probe. of the service interface at the Ethernet 2. Connect the USB cable with the testo USB adapter and insert in the service interface

. 3. Insert product CD with the testo Saveris software in the CD-

ROM drive of the computer. 4. Connect the USB cable to the computer.

- The wizard for the installation of the driver is started. 5. Follow the directions of the installation wizard. Pos: 78 /TD/Erste Schritte/testo Saveris/Hardware erweitern/03 Ethernet-Fhler einbinden/02 Software installieren @ 1\mod_1203421488750_79.doc @ 8215 0970 4020 en 01 65 5 First steps 5.12.2.4. Installing parameterization software Administrator rights are required to install programs and drivers under Windows 2000 SP4, XP and Vista. 1. Insert CD with Saveris software in the CD-ROM drive.

If applicable, cancel the installation program the starts up automatically. 2 Open Windows Explorer and mark the entry of the CD-ROM drive in which the Saveris product CD is located. 3. Open the dbv4ethernet folder and start the Setup.exe file. 4. Follow the directions of the installation wizard.

- The software is ready to be used after restarting the computer. Pos: 79 /TD/Erste Schritte/testo Saveris/Hardware erweitern/03 Ethernet-Fhler einbinden/03 Verbindungsdaten zuweisen @ 1\mod_1203421515781_79.doc @ 8226 5.12.2.5. Assigning connection data You must now enter the connection settings for the Ethernet probes. 1. Open the assistant for entering the connection settings via Start | All Programs | Testo | Ethernet device startup.

- The assistant is started with the welcome dialogue. 66 0970 4020 en 01 testo AG 5 First steps 2. Click on [Continue >].

- The dialogue Address of the Saveris base is shown if the computer has DHCP. In this case, continue with step 4. Instrument address allocation is shown if an automatic allocation of the IP address via DHCP is not possible. You must manually enter the connection data. 3. Enter IP address, Netmask and Gateway. The first two blocks of the IP address must match those from the Saveris base. The last two blocks can be selected freely. However, the IP address may not yet be assigned. The IP address, the netmask and the gateway can be read off at the Saveris base in the Info Base menu;

also see chapter Displays, page 16. 4. Click on [Continue >].

- The dialogue for the entry of the connection data for the base is shown. 0970 4020 en 01 67 5 First steps 5. Enter IP address of the Saveris base. The IP address can be read off at the Saveris base in the Info Base menu; also see chapter Displays, page 16. 6. Click on [Finish].

- The Ethernet probe is restarted, synchronized with the Saveris base and the number of connected Ethernet probes in the display of the base is increased by 1; see 68 0970 4020 en 01 testo AG Pos: 80 /TD/Erste Schritte/testo Saveris/Hardware erweitern/03 Ethernet-Fhler einbinden/04 Netzwerkkabel an Base anschlieen @ 1\mod_1203430798656_79.doc @ 8313 Displays, page 16. 5 First steps 0970 4020 en 01 69 5 First steps 5.12.2.6. Connecting the network cable to the Saveris base You can integrate the Saveris base into a network via a network hub or connect the Ethernet probe directly via a network cable. 3 2 1 1. Loosen and remove 2. Remove cover 3. Plug the network cable screw connection. from Saveris Base. into the Saveris base. Pos: 81 /TD/Erste Schritte/testo Saveris/Hardware erweitern/03 Ethernet-Fhler einbinden/05 Ethernet-Fhler inbetrieb nehmen @ 1\mod_1203421551984_79.doc @ 8237 70 0970 4020 en 01 testo AG 5 First steps Starting up Ethernet probes 1. Open the assistant for starting up new hardware component via Start | All Programs | Testo | Startup Assistant.

- The assistant is opened with the welcome screen. 2. Click on [Continue >].

- The Commission new probe dialogue is shown. 0970 4020 en 01 71 5.12.2.7. 5 First steps 3. Leave default setting and click on [Continue >].

- The list of the probes newly registered in the Saveris base is shown. 72 0970 4020 en 01 testo AG 5 First steps The fields of the Channel name column for probe designations are required fields. You must fill in these fields to be able to continue with the startup. The Lower limit and Upper limit fields are already preassigned limit values, but you can adapt the limit values to your requirements. The limit values determine as of which reading the Saveris base triggers an alarm. 4. Click in the Channel name field and enter the designation

of the probe, e.g. "Room 4". Click in the Lower limit field and change the lower limit value. If all probes are to have the same limit value, click on the column title with the right mouse button and then click on Apply to all in the context menu. This also applies for the upper limit value in the next step.

Click in the Upper limit field and change the upper limit value. Perform step 4 and the following for all other new probes until all required fields are filled. 0970 4020 en 01 73 5 First steps 5. Click on [Continue >].

- The settings for measuring cycle, the alarm delay and the alarm issue are shown. 6. Enter the Measuring cycle and determine its Unit. The measuring cycle determines in which intervals a new reading is saved in the Saveris base. Possible settings for the unit:

sec min h

(second)

(minute)

(hour). 7. Determine Alarm delay. If you enter the value "5" for example, an alarm is not triggered by the Saveris base until the fifth time that the limit value is exceeded. 74 0970 4020 en 01 testo AG 5 First steps 8. Determine the issue options for the limit value alarms. Possible options:

SMS (optional with Saveris base with GSM module) E-mail Relay of the Saveris base. The notification function via SMS is only available if the Saveris base is equipped with a GSM module. 9. Click on [Continue >].

- The wizard is shown with the setting for the start of measurement and the list of the newly registered probes. 10. Postpone the start of measurement, if necessary. 11. Click on [Finish] to complete the startup of the hardware.

- A note on the successful configuration of the hardware is shown. 12. Press [OK] to confirm the note.

- The new hardware is now ready for operation. 0970 4020 en 01 75 5 First steps Pos: 82 /TD/Erste Schritte/testo Saveris/Hardware erweitern/02 Converter einbinden/00 Converter einsetzen @ 1\mod_1197550607093_79.doc @ 6315 5.12.3. Integrating Saveris converter (optional) If the distance between the radio probe or router is too large for a radio transmission, you can integrate a Saveris converter into the measuring system. The converter is connected to the Saveris base by means of an Ethernet cable and converts the radio signals to Ethernet signals. The measurement data of up to 15 radio probes can be transmitted with the converter to the Saveris base. You can connect several converters to the Saveris base using a so-called switch. In this context, note that a maximum of 150 probes can be connected or 254 measurement channels recorded at the Saveris base. The preparation for the commissioning of a converter is performed as with a Saveris Ethernet probe; see Connecting the network cable., page 62 up to and including Connecting the network cable to the Saveris base, page 70. Connecting probe to converter A probe that you wish to connect to the Saveris converter may not be registered at the Saveris base. If this is the case, you must log the probe out of the base before you can continue with the connection at the converter; see Deleting components, page 130. 1. Briefly press the connect button on the rear of the converter.

- The LED at the converter lights green and the converter is ready for probe detection. 2. Press the connect key on the rear of the probe until the LED at the probe begins to flash orange.

- The LED at the probe briefly turns green if this was detected by the Saveris converter. The probe is connected at the converter and this transmits the measurement data of the probe to the Saveris base. Pos: 83 /TD/Erste Schritte/testo Saveris/06 ****Probelauf/00 Probelauf und Abnahme durchfhren @ 0\mod_1189157354187_79.doc @ 4054 76 0970 4020 en 01 testo AG 5 First steps 5.13. Performing the test run The test run must be performed to ensure proper operation of the measuring system. Pos: 84 /TD/Erste Schritte/testo Saveris/06 ****Probelauf/01 Systemverfgbarkeit prfen @ 0\mod_1189157395875_79.doc @ 4094 5.13.1. Checking system availability Wait for the first connection between the Saveris base and the probes to check the system availability. Click on System in the navigation area.

- The following entries are shown in the tree structure in the data window:

Base Radio probe Ethernet probe Router Converter. 1. Open the Radio probe entry.

- The active channels of the probes connected in the system are shown. Click on a channel to open the settings and check the Radio quality. Repeat step 2 for all other probes. 2

If no values have accumulated for a probe for a while, check whether a connection exists between the probe and the Saveris base by briefly pressing the connect button at the probe. The LED at the probe shows the connection status; also see "Meaning of the LED displays at the probes " for this. Pos: 85 /TD/Erste Schritte/testo Saveris/06 ****Probelauf/02 Alarmkette prfen @ 0\mod_1189157374281_79.doc @ 4064 0970 4020 en 01 77 5 First steps 5.13.2. Checking alarm chain You can trigger an alarm and control the sending of the messages without having to bring about a real alarm situation.

Click on Alarms in the navigation area. In the data window, the Basic setting and Alarm overview submenus as well as the probes connected in the Saveris base are shown. 1. Click on Basic setting.

- The basic setting for the alarms is shown in the display range. 2. Click on the [Test report] button.

- A test report is sent to the mobile phone number entered. Pos: 86 /TD/Erste Schritte/testo Saveris/07 **** Montage der Hardware/00 Hardware montieren @ 0\mod_1189157579984_79.doc @ 4124 78 0970 4020 en 01 testo AG 5 First steps 5.14. Mounting the hardware The notes in chapter "Ensure safety" must absolutely be observed when mounting the Saveris components. Do not mount the Saveris base and the probes at their locations until the measuring system functions as expected. After mounting, perform another test run of the system;

also see "Performing the test run". Pos: 87 /TD/Erste Schritte/testo Saveris/07 **** Montage der Hardware/01 Base an der Wand montieren @ 0\mod_1189157492531_79.doc @ 4105 5.14.1. Mounting the Saveris base on the wall When selecting the location for the Saveris base, please take into account that this must be positioned close enough to the computer used and a possible power supply in accordance with the cabling provided. The mounting materials (screws, anchor plugs etc.) are not included in the delivery. 1 1. Position wall bracket 2. Using a pen, mark the locations for the fastening screws. The distance between the fastening screws is 25 mm. at the desired location. 3. Prepare the fastening location for the attachment in accordance with the material (e.g. drill hole, insert anchor plug). 4. Fasten wall bracket using appropriate screws. 0970 4020 en 01 79 5 First steps 2 5. Place Saveris base with screw

. 1 3 on the wall bracket and secure Pos: 88 /TD/Erste Schritte/testo Saveris/07 **** Montage der Hardware/01b Base mit Standfu @ 0\mod_1190975629546_79.doc @ 5233 80 0970 4020 en 01 testo AG 5.14.2. Setting up Saveris base with stand 5 First steps When selecting the location for the Saveris base, take into account the following points:

The Saveris base must stand on a level, non-slip surface. The Saveris base must be positioned close enough to the computer used and a possible power supply in accordance with the cabling provided. 1 2 1. Place the Saveris base 2. Set up the Saveris base at the desired location. on the stand

. 0970 4020 en 01 81 5 First steps Pos: 89 /TD/Erste Schritte/testo Saveris/07 **** Montage der Hardware/03 Fhler montieren @ 0\mod_1189157541812_79.doc @ 4114 5.14.3. Mounting the probe on the wall When selecting the location, take into account the following points:

The range of the probe may not be exceeded; see

"Connecting radio probe" and "Performing the test run". Attach the probe in such a way that the readings cannot be distorted, e.g. by exposure to direct sunlight The mounting materials (screws, anchor plugs etc.) are not included in the delivery. 1 1. Position wall bracket 2. Using a pen, mark the locations for the fastening screws. The distance between the fastening screws is 30 mm. at the desired location. 3. Prepare the fastening location for the attachment in accordance with the material (e.g. drill hole, insert anchor plug). 4. Fasten wall bracket using appropriate screws. The wall bracket must be screwed down with the smooth surface facing the wall. 82 0970 4020 en 01 testo AG 5 First steps 2 1 5. Place probe on the wall bracket until it engages. Please refer to "Removing probe from wall bracket" for removing the probe from the wall bracket. Pos: 90 /TD/Erste Schritte/testo Saveris/07 **** Montage der Hardware/04 System prfen @ 0\mod_1191327191562_79.doc @ 5362 5.14.4. Checking the measuring system again

> Perform another test run at the measuring system; see "

0970 4020 en 01 83 6 Using the product Performing the test run". After mounting the hardware, perform another check of the system to test the proper function of the measuring system. You can thus recognize whether probes are located outside of the range of the Saveris base, where applicable, or the radio link is interfered with by structural conditions. Pos: 91 /TD/--- Seitenwechsel --- @ 0\mod_1173774430601_0.doc @ 283 Pos: 92 /TD/berschriften/6. Produkt verwenden @ 0\mod_1173774928554_79.doc @ 328 6 6.1. Pos: 93 /TD/Produkt verwenden/testo Saveris/01 Start/02_Bedienoberflche_01 @ 0\mod_1189076833359_79.doc @ 3943 Using the product User interface In this chapter, you learn how the user interface of the Saveris software is designed. Pos: 94 /TD/Produkt verwenden/testo Saveris/01 Start/02_Bedienoberflche_02_SBE @ 1\mod_1197983794406_79.doc @ 6583 Pos: 95 /TD/Produkt verwenden/testo Saveris/01 Start/02_Bedienoberflche_03 @ 1\mod_1197983802515_79.doc @ 6603 Menu bar Menu Explanation 84 0970 4020 en 01 testo AG 6 Using the product Menu Explanation All functions that you require to open, close, save, delete and print. The recently used files are also available as a list for opening. Using this menu, the program can also be ended. With the Send command, you can send measurement results by e-mail. Microsoft Outlook must be installed on the computer for this. Saves the current selection in a file. Prints the current view. Setting options for the menu bar. Functions for the clipboard, editing the measurement data records, the evaluation, the view and the font in the tables and diagrams. Functions for evaluating the diagrams or tables and possible settings for the curves and axes in the diagram view. Setting options for the display of curves and the display of service data. Selection of the report heads and editing functions for the templates. Start Edit Options Templates Pos: 96 /TD/Produkt verwenden/testo Saveris/01 Start/02_Bedienoberflche_04 @ 1\mod_1197983805828_79.doc @ 6613 Pos: 97 /TD/Produkt verwenden/testo Saveris/01 Start/02_Bedienoberflche_05 @ 1\mod_1197983809546_79.doc @ 6623 Pos: 98 /TD/Produkt verwenden/testo Saveris/01 Start/02_Bedienoberflche_06 @ 1\mod_1197983817359_79.doc @ 6643 Data range The measurement data are managed in the data range. You can create new groups of readings and copy the data from individual channels within the groups. Display range In the display range, the readings are represented as diagrams and tables and the alarms received are listed. Calendar and acknowledging alarms The Calendar tab is used for fast navigation within the data records. Open the data records in the display range by clicking on a certain day in the calendar or marking a period of several days in the calendar with the mouse button pressed. 0970 4020 en 01 85 6 Using the product Pos: 99 /TD/Produkt verwenden/testo Saveris/01 Start/02_Bedienoberflche_07 @ 1\mod_1197983827015_79.doc @ 6653 In the Acknowledgement tab, confirm the alarms received. Navigation area In the navigation area, change to the display of Data and the settings for the Alarms, the System and the Reports. Pos: 100 /TD/Produkt verwenden/testo Saveris/01 Start/02_Bedienoberflche_08 @ 1\mod_1197984029171_79.doc @ 6663 Status bar Shows the status information for the software. Pos: 101 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/00 Mens und Befehle @ 0\mod_1190279903078_79.doc @ 4975 6.2. Menus and commands In this chapter, you learn which menus and commands are available to you and what you can use these commands for. Adding commands to the menu bar Pos: 102 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/00 Quick Access Toolbar @ 0\mod_1189084046921_79.doc @ 4022 You can copy the commands from the Start, Edit, Extras and Template menus into the upper menu bar, the so-called Quick Access Toolbar. You thus always have fast access to the functions that you use frequently. 1. Click on the command that should be copied into the menu bar with the right mouse button. 2. Select the Add to Quick Access Toolbar command in the context menu.

- The command is now shown in the menu bar but can also still be selected in the original menu. Erasing commands from the menu bar 1. Click on the command that should be erased from the menu bar with the right mouse button. 2. Select the Remove from Quick Access Toolbar command in the context menu. Pos: 103 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/01 Start/00 Men Start @ 0\mod_1190280034765_79.doc @ 4984 6.2.1. Pos: 104 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/01 Start/01 Zwischenablage @ 0\mod_1189605664203_79.doc @ 4484

- The command is removed from the menu bar. Start Start | Clipboard menu Menu function Description 86 0970 4020 en 01 testo AG 6 Using the product Menu function Copy Paste Description Copies the marked element onto the clipboard. Pastes the contents of the clipboard at the current position. Pos: 105 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/01 Start/02 Bearbeiten @ 0\mod_1189605697875_79.doc @ 4494 0970 4020 en 01 87 6 Using the product Start | Edit menu Menu function Open Description Rename Delete New group Pos: 106 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/01 Start/03 Auswertung @ 0\mod_1189605812562_79.doc @ 4524 Opens the marked element; e.g. the data from a group. Renames the marked element. Deletes the marked element. Creates a new reading group. Start | Evaluation menu Menu function Day Description Shows the calendar for the selection of the day in order to call up the data from the corresponding day or days from the database. Shows the calendar for the selection of the month in order to call up the data from the corresponding month from the database. Refreshes the current view with the newest measurement data. Start | View menu Menu function Diagram Description Changes to the presentation of the data in a diagram. Changes to the presentation of the data in a table. Opens or closes the alarm overview and acknowledgement. Month Refresh Pos: 107 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/01 Start/04-1 Ansicht @ 0\mod_1189605850812_79.doc @ 4534 Table Alarms Pos: 108 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/02 Bearbeiten/00 Men Bearbeiten @ 0\mod_1190280106796_79.doc @ 4993 88 0970 4020 en 01 testo AG 6 Using the product 6.2.2. Pos: 109 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/02 Bearbeiten/02 Bearbeiten (Diagramm) @ 0\mod_1189606502281_79.doc @ 4555 Edit Edit in the diagram view The Edit (diagram) menu is only shown if the diagram is activated by clicking in the window. Edit | Tools (diagram) menu Menu Description function Zoom in Crosshairs Mark area Drag to form a rectangle in the diagram window to zoom in on the highlighted area. Click on [Original size] to display the diagram in its total size again. Crosshairs with which the curve can be followed are shown by clicking on a point of the measurement curve. The date, time, reading number and reading are shown in the process. You can determine an area that is to be calculated out or saved:

The calculation area is determined by clicking on a curve. The area limits can be moved using the left mouse button and the whole area using the right mouse button. The extract is a time period. If you have determined an extract for a measurement protocol, all calculations are performed within these limits. Remove the extract markings with the Erase text command if you wish to calculate out the entire data sequence. Area marking and calculation of mean value. If you have marked an area, the area borders, the arithmetic mean value and the minimum and maximum of the value pattern are shown in the status bar. 0970 4020 en 01 89 6 Using the product Menu function Regression curve Insert text Description Regression curves are an aid for being better able to assess large, unclear amounts of data. In this process, "outliers" are suppressed and the actual course of the curve is reproduced using a theoretical, mathematical function. The regression curve is shown by clicking on a measurement curve. The regression coefficients are shown in the status bar. Text can be added to diagrams. The text frame can be moved to any position on the drawing area (click and hold the right mouse button on the upper horizontal frame border and move text frame). Erases a marked text frame. Erase text Calculation Opens the Statistical calculation dialogue for the entire data range of the selected reading curve. Edit | Curves (diagram) menu Menu function C:1, C:n Description Legend for the diagram. Click on the entry of a curve and the dialogue for the characteristics of the curve is opened. Description Edit | Value axis (diagram) menu Menu function Upper limit range of values Lower limit range of values Grid Scaling of the value axis. Maximum of the shown range of values. Minimum of the shown range of values. 90 0970 4020 en 01 testo AG 6 Using the product Edit | Time axis (diagram) menu Menu function Grid Description Scaling of the time axis. Pos: 110 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/02 Bearbeiten/03 Bearbeiten (Tabelle) @ 0\mod_1189606537468_79.doc @ 4565 Edit in the table view The Edit (table) menu is only shown if the table is activated by clicking in the window. Edit | Tools (table) menu Menu function Mark Mark data over a definable time period or definable lines (index range). Description Drop marking Drops the marking. Extra lines

(minimum, maximum, mean value) Compress Inserts a row with the corresponding value for the overall table at the end of the table. Compresses the table to definable intervals. Only the first and the last value are shown for the individual intervals. The other readings are hidden. Drops the compression. Drop compression Edit | Find (table) menu Menu function Minimum Description Maximum Pos: 111 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/03 Extras/00 Men Extras @ 0\mod_1190280173640_79.doc @ 5003 Shows the smallest reading of the selected channel within the table. Shows the largest reading of the selected channel within the table. 0970 4020 en 01 91 6 Using the product 6.2.3. Pos: 112 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/03 Extras/01 Verwaltung @ 1\mod_1197373808453_79.doc @ 6173 Pos: 113 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/03 Extras/02 Bearbeiten @ 0\mod_1189606801796_79.doc @ 4596 Options Extras | Management menu Menu Description function Projects Protocols Description Extras | Edit menu Menu function Undo Paste into a new file Opens the dialogue for selecting a project. Opens a protocol file that you can send to Customer Service in the event of a problem. Undo the last action. Pastes the content on the clipboard in a new file. Pos: 114 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/03 Extras/03 Einstellungen @ 0\mod_1189606889031_79.doc @ 4616 Extras | Settings menu Menu function Representatio n Description Settings for the representation of the diagram. Pos: 115 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/03 Extras/04 Schriftart @ 0\mod_1189606719546_79.doc @ 4576 Description Extras | Font menu Menu function Font Font size Setting the font for the tables and diagrams. Setting the font size for the tables and diagrams. When selecting the font and font size, take into account the legibility of the diagrams and tables. Use sans-serif fonts such as Arial or Verdana. Pos: 116 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/03 Extras/05 Servicedaten @ 0\mod_1189606938750_79.doc @ 4626 92 0970 4020 en 01 testo AG 6 Using the product Description Extras | Service menu Menu function Display service data Pos: 117 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/05 Men Vorlage @ 0\mod_1190280258593_79.doc @ 5013 6.2.4. Pos: 118 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/05 Vorlage @ 0\mod_1188997033281_79.doc @ 3727 Creates a text file with the required information for Customer Service if servicing is required. If the service data cannot be displayed under Windows Vista, start the WordPad program and save, for example, an empty file of your choice in

*.wri format. To do so, manually enter the file extension behind the file name. A link is thus formed between the file and the service data and WordPad. Template Template | Template menu Select a standard template in this menu into which the data that are to be saved or printed are integrated. The templates differ in the protocol header, meaning in the company logo, the address field or the specification of statistical values. Template | Edit menu Menu function Edit template Enables the editing of an existing template. Create new template Style Selection of the colour scheme for the program window. Help (?) Display copyright, program information and version number. Enables the creation of a new template. Description Pos: 119 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/06 Men Style @ 0\mod_1190378356765_79.doc @ 5092 6.2.5. 6.2.6. Pos: 120 /TD/Produkt verwenden/testo Saveris/02 Mens und Befehle der Ribbon-Leiste/07 Men Hilfe @ 0\mod_1190378542250_79.doc @ 5102 Pos: 121 /TD/Produkt verwenden/testo Saveris/03 Gruppen einrichten/organisieren/00 Zonen anlegen und lschen @ 0\mod_1190280348609_79.doc @ 5023 0970 4020 en 01 93 6 Using the product 6.3. Pos: 122 /TD/Produkt verwenden/testo Saveris/03 Gruppen einrichten/organisieren/04 Zonen anlegen @ 0\mod_1189076726062_79.doc @ 3902 6.3.1. Creating and deleting zones After you have familiarized yourself with the menus of the Saveris software you can now turn to creating zones, for example to separate the probes according to location. You could perhaps combine probes that are located in store rooms into one zone and probes that are in cold rooms into another. Creating zones 1. Click on Data in the navigation area.

- The available zones are shown in the data range. 2. Select the New zone command in the Start | Edit |

Organizing menu.

- The New zone dialogue is shown. 3. If necessary, deactivate an unneeded channel. At least one channel must be activated. When you create a new zone, create a copy with one or more channels from the Zone0 standard group. 4. In the field of the same name, enter the name of the new zone, e.g. "Store rooms". Assign names for the zones that are not longer than 15 characters. 5. Confirm the entries with [OK].

- The New zone dialogue is closed and the new zone is listed in the tree structure in the data range. Pos: 123 /TD/Produkt verwenden/testo Saveris/03 Gruppen einrichten/organisieren/08 Zonen lschen @ 0\mod_1189076727046_79.doc @ 3922 6.3.2. Deleting zones The Zone0 standard group cannot be deleted. 1. Click on Data in the navigation area.

- The available zones are shown in the data range. 2. Mark the zone that is to be deleted in the tree structure. 3. Select the Erase command in the Start | Edit menu.

- The zone is deleted without a reference. 94 0970 4020 en 01 testo AG 6 Using the product Pos: 124 /TD/Produkt verwenden/testo Saveris/04 Alarme konfigurieren/00 Alarme konfigurieren @ 0\mod_1189063396359_79.doc @ 3852 6.4. Configuring the alarms The testo Saveris measurement system differentiates between two types of alarm, which can be configured independent of one another:

System alarms, meaning alarms that come from the Saveris base, the GSM modem or the relay at the Saveris base, and Probe alarms, which report a fault or that a limit value was exceeded at a probe. Pos: 125 /TD/Produkt verwenden/testo Saveris/04 Alarme konfigurieren/01 Alarm vorkonfigurieren @ 0\mod_1188997882750_79.doc @ 3781 6.4.1. Basic settings for the SMS messages The Basic settings submenu is only shown if the Saveris base is equipped with a GSM module. 1. Click on Alarm settings in the navigation area.

In the data window, the Basic setting and Alarm overview submenus as well as the probes connected in the Saveris base are shown. 2. Click on Basic setting.

- The basic settings for the alarm messages via SMS are shown in the display range. Designation Description 0970 4020 en 01 95 6 Using the product Designation Receiver 1 Receiver 2 Forward after ... min Additional text Description Telephone number of the employee who is to receive the alarm message. Enter with country code, network or area code and local number: 00491721234567. To acknowledge an alarm message, send the received message with the same text back to the mobile number of the Saveris base. Checkbox and input field for the telephone number of the employee who is to receive the alarm message if Receiver 1 cannot be reached. Enter with country code, network or area code and local number: 00491721234567. To acknowledge an alarm message, send the received message with the same text back to the mobile number of the Saveris base. If Receiver 1 does not react within this time span, the message is forwarded to Receiver 2. Additional text that is attached to the alarm message. The system alarms are above all used for pointing out irregularities in the measurement system. If no reaction follows the system alarms, uninterrupted data recording is not guaranteed. If a system alarm is issued via SMS or E-mail time delays may occur. The notification function via SMS is only available if the Saveris base is equipped with a GSM module. 3. Perform the required settings. When exiting the basic settings the settings are saved. 96 0970 4020 en 01 testo AG 6 Using the product Pos: 126 /TD/Produkt verwenden/testo Saveris/04 Alarme konfigurieren/02 Spezifischen Alarm einrichten @ 0\mod_1189064215593_79.doc @ 3861 6.4.2. Configuring the probe alarm 1. Click on Alarm settings in the navigation area.

In the data window, the Basic setting and Alarm overview submenus as well as the probes connected in the Saveris base are shown. 2. In the tree structure open the probe entry and select the channel for which a specific alarm should be set up.

- The channel-specific settings for the alarms are shown in the display range. Pos: 127 /TD/Produkt verwenden/testo Saveris/04 Alarme konfigurieren/02 Spezifischer Alarm - 01 Grenzwerte @ 0\mod_1189064521015_79.doc @ 3871 Limit values Designation Checkbox Limit value Value Unit Explanation Option of whether an alarm should be triggered in the event of a breach of the limit value. Designation of the limit value. Specification of the limit value. Unit of the limit value. Pos: 128 /TD/Produkt verwenden/testo Saveris/04 Alarme konfigurieren/02 Spezifischer Alarm - 02 Verzgerung @ 0\mod_1189064581156_79.doc @ 3881 Alarm delay Designation Explanation 0970 4020 en 01 97 6 Using the product Designation Delay (min) Explanation With a delay of how many measuring cycles should the alarm be triggered?

Pos: 129 /TD/Produkt verwenden/testo Saveris/04 Alarme konfigurieren/02 Spezifischer Alarm - 03 Ausgabe @ 0\mod_1189064615828_79.doc @ 3891 Output targets Designation SMS, E-mail, Alarm relay base, Explanation Determining in which form the probe alarms should be issued. The system alarms are above all used for pointing out irregularities in the measurement system. If no reaction follows the system alarms, uninterrupted data recording is not guaranteed. If a system alarm is issued via SMS or E-mail time delays may occur. The notification function via SMS is only available if the Saveris base is equipped with a GSM module.

> Make the required entries. Pos: 130 /TD/Produkt verwenden/testo Saveris/04 Alarme konfigurieren/03 Alarmbersicht @ 0\mod_1188997883484_79.doc @ 3791 When exiting the probe settings the changes are saved. 6.4.3. Alarm overview In the alarm overview you will find a list of the probes with their specific alarm settings. 1. Click on Alarm settings in the navigation area.

In the data window, the Basic setting and Alarm overview submenus as well as the probes connected in the Saveris base are shown. 2. Click on Alarm overview.

- The probes are listed with their specific settings in the display range. 98 0970 4020 en 01 testo AG 6 Using the product Designation Source Lower limit Upper limit SMS, E-mail, Alarm relay base, Active Explanation Probes on which the limit value has been exceeded. Lower limit value. Upper limit value. Specification as to whether the corresponding option is activated in the basic settings. Specification as to whether the alarm for the probe is activated under System |

Radio probe. Pos: 131 /TD/Produkt verwenden/testo Saveris/05 Messreihen analysieren @ 0\mod_1190895859625_79.doc @ 5163 0970 4020 en 01 99 6 Using the product 6.5. Analyzing series of measurements You can represent series of measurements as a diagram or a table.

In the Start | View menu, select the Diagram function if the data should be displayed graphically or Pos: 132 /TD/Produkt verwenden/testo Saveris/05a Diagramme analysieren/00 Diagramme @ 0\mod_1188996581406_79.doc @ 3484 Table function if the data should be displayed as a table. 6.5.1. Diagram view In this view, the readings are shown as line diagrams. In the Start | View menu, the Diagram command is activated. Now you have to select the data record that you wish to display. 1. Select the day or time period in the calendar that should be evaluated. 2. In the tree structure of the data range, open the group that contains the data to be displayed.

- The diagram for the selected data is shown.

If necessary, deactivate channels via the checkboxes for the display. You can show or hide the gridlines for the corresponding axis by clicking on the time axis or the value axis. Pos: 133 /TD/Produkt verwenden/testo Saveris/05a Diagramme analysieren/01 Vergrern @ 0\mod_1188996582156_79.doc @ 3494 6.5.1.1. Pos: 134 /TD/Produkt verwenden/testo Saveris/05a Diagramme analysieren/02 Fadenkreuz @ 0\mod_1188996582421_79.doc @ 3504 Enlarging the view Zoom in on a detail of the diagram to check the behavior of the readings within a specific time span, for example. 1. Click on Edit | Tools | Zoom in. 2. In the diagram, use the left mouse button, pressed and held, to highlight the area that should be shown enlarged. Click on [Original size] and the entire diagram is shown again. 100 0970 4020 en 01 testo AG 6 Using the product 6.5.1.2. Information on a reading (crosshairs) If you move your crosshairs along a curve, you will quickly receive detailed information on the individual readings. 1. Click on Edit | Tools | Crosshairs. 2. In the diagram, click on the point for which the details should be shown.

- A dialogue with the following information on the reading is shown:

date on which the reading was recorded, time at which the reading was recorded, number of the reading and reading. You can move along the curve with the left mouse button pressed and held and thereby see the individual information for the readings. In doing this, it is not necessary to exactly follow the course of the curve; the crosshairs does this automatically if you move the mouse to the right or left. Pos: 135 /TD/Produkt verwenden/testo Saveris/05a Diagramme analysieren/03 Bereich markieren @ 0\mod_1188996582687_79.doc @ 3514 6.5.1.3. Marking the area Mark an area of the diagram to show the statistical computation for a portion of the curve, for example. 1. Click on Edit | Tools | Mark area. 2. In the diagram, click in the area on the curve that is to be marked.

- A border is shown that marks the area. You can change the borders of the area by holding down the left mouse button and move the area to the left or right by pressing down the right mouse button within the area. The arithmetic mean for the selected area is shown as a horizontal line in the diagram. In the status bar, the borders of the area, the mean and the minimum and maximum reading are shown.

> Delete the marked area with the Erase text command. 0970 4020 en 01 101 6 Using the product Pos: 136 /TD/Produkt verwenden/testo Saveris/05a Diagramme analysieren/04 Ausgleichskurve @ 0\mod_1188996582968_79.doc @ 3524 6.5.1.4. Showing regression curve Place the regression curve over the diagram to show the course that the measurement series tends to take. 1. Click on Edit | Tools | Regression curve. 2. Click on the reading curve for which the regression curve should be shown.

- The regression curve is shown and displayed in the status bar of its regression coefficients. If you click on the curve again, the regression curve is hidden again. Pos: 137 /TD/Produkt verwenden/testo Saveris/05a Diagramme analysieren/05 Text einfgen @ 0\mod_1188996583250_79.doc @ 3534 6.5.1.5. Inserting text Insert text in the diagram, for example to mark distinctive measurement points. 1. Click on Edit | Tools | Insert text.

- A text field is inserted in the diagram. 2. Enter any text. 3. Drag text field to required position in the diagram with left mouse button pressed and held on the upper horizontal border of the field. The text length possible depends on the size of the text field. Enlarge the text field by dragging the vertical borders of the field or the lower horizontal border of the field with the left mouse button pressed and held. With one click of the right mouse button on the text field, you open the Font dialogue in which you can format the text. When selecting the font, font size and colour, take into account the legibility of the text. Use sans-serif fonts such as Arial or Verdana as well as a text colour that is clearly visible against the background colour. Pos: 138 /TD/Produkt verwenden/testo Saveris/05a Diagramme analysieren/06 Text entfernen @ 0\mod_1188996583546_79.doc @ 3544 102 0970 4020 en 01 testo AG 6 Using the product 6.5.1.6. Erasing text You also delete a marked area from the diagram with the Erase text command. Pos: 139 /TD/Produkt verwenden/testo Saveris/05a-2 Kurveneigenschaften/00 Kurveneigenschaften @ 0\mod_1188996704171_79.doc @ 3636 1. Click on the text that is to be erased.

- The text field is marked. 2. Click on Edit | Tools | Erase text.

- The text field is deleted. Characteristics of a curve You can adapt the representation of a measurement series to your requirements. For example, you can change the line weight of a curve or the representation of the limit values in the diagram. 1. Change to the diagram view of the measurement series, the characteristics of which are to be displayed. 2. Click in the Edit | Curves menu on the entry of the curve, the characteristics of which are to be displayed.

- The Characteristics of (name of curve) dialogue is opened. The following tabs are available in the dialogue:

Curve tab Range limits tab Data sequence tab Statistical computation tab. Buttons of the dialogue Button

[OK]

[Cancel]

Explanation Applies the changed settings. The dialogue is closed. Closes the dialogue without applying the changes. 0970 4020 en 01 103 6.5.1.7. 6 Using the product Pos: 140 /TD/Produkt verwenden/testo Saveris/05a-2 Kurveneigenschaften/01 Register Kurve bearbeiten @ 0\mod_1188996705609_79.doc @ 3666 Curve tab Designation Smooth Mark measuring points Explanation The measurement points are connected by an interpolated curve; the plot-points on the curve between two measurement points are estimated mathematically. The individual measurement points are represented by a symbol. The value shown only corresponds to the exact measured value at these points. The measurement points are connected with straight lines during the measurement. When the measurement is paused the curve can be smoothed. Line colour of curve. Line weight of curve. Line pattern of curve. Symbol for the measurement points. Possible values "0" to "7". The "0" degree represents a pure mean calculation, the

"1" degree of regression the linear trend, a higher value helps in the event of curves with several extreme values. Colour Width Style Marker Degree of regression 104 0970 4020 en 01 testo AG Pos: 141 /TD/Produkt verwenden/testo Saveris/05a-2 Kurveneigenschaften/02 Register Grenzwertanzeige @ 0\mod_1188996705265_79.doc @ 3656 Range limits tab 6 Using the product Designation Display area limit Specification as to whether the limit Explanation Add limit labels Area fill Selection list for area fill Line fill Selection lists for line fill Overshoot Undershoot values should be shown in the diagram. Specification as to whether the limit values should be labelled (Upper/Lower limit value: name of curve). Specification as to whether the areas outside of the limit values should be marked by means of an area fill. Selection of the fill. Specification as to whether the limit values should by means of horizontal lines. Selection lists for line type and line thickness. Colour selection for the fill of the area above the upper limit value. Colour selection for the fill of the area below the lower limit value. 0970 4020 en 01 105 6 Using the product Pos: 142 /TD/Produkt verwenden/testo Saveris/05a-2 Kurveneigenschaften/03 Register Datenreihe @ 0\mod_1188996704453_79.doc @ 3646 Data sequence tab Explanation Designation Upper limit values Specification of the upper limit value. Lower limit values Specification of the lower limit value. Name Decimal places number representation

[Convert unit]

Designation of curve. Number of the decimal places; e.g. for the data table. Possible values "0" to "6". Opens a dialogue for converting the unit of the curve. Graphical representation for the distribution of the readings:

green: readings that are within the limit values. Pie chart blue: readings that are below the lower limit value. red: readings that are above the upper limit value. 106 0970 4020 en 01 testo AG Pos: 143 /TD/Produkt verwenden/testo Saveris/05a-2 Kurveneigenschaften/04 Register Stat. Berechnung @ 0\mod_1188996705906_79.doc @ 3676 Statistical computation tab 6 Using the product Designation Min. value Max. value Mean value Std. deviation Calculating the complete data area Calculation in section area Explanation Smallest reading of the curve. Largest reading of the curve. Arithmetically-determined average value. Measure of the scattering of the readings around the average. Specification that the given values are valid for the entire measurement curve. An alternative to Calculating the complete data area, if an area was marked. Specification that the given values are only valid for the selected area of the measurement curve. Pos: 144 /TD/Produkt verwenden/testo Saveris/05a-3 Achseinstellungen/05 Einstellungen fr die Achsen im Diagramm @ 0\mod_1193999542168_79.doc @ 5684 0970 4020 en 01 107 6 Using the product 6.5.1.8. Pos: 145 /TD/Produkt verwenden/testo Saveris/05a-3 Achseinstellungen/06 Werteachse @ 0\mod_1193999542824_79.doc @ 5694 Settings for the axes in the diagram Change the settings of the axes in the diagram to adapt the representation to your requirements. Settings for the value axis

> With the right mouse button, click on the desired value axis in the diagram.

- The Change axis [unit of the readings] dialogue is shown. Designation Division linear Division logarithmic

[OK]

[Cancel]

Automatic scale Explanation Specification that the axles are divided in a linear manner. Specification that the axes are divided logarithmically, meaning the increments represent powers of ten. Applies the settings until other data are called up. The dialogue is closed. Closes the dialogue without applying any changes. Specification as to whether the program should perform the scaling of the value axis. Manual entry of the range of values if the Automatic scale is deactivated. Range of values from ... to

[Store as defaults] Saves the current settings as the default setting. Division Automat. Specification that the program should perform the division of the axis. 108 0970 4020 en 01 testo AG 6 Using the product Designation Division Manual Grid [<], [>] (if automatic division is activated) Interval (if manual division is activated) Explanation Specification that the division of the axis should be performed manually. Decrease or increase the division of the axis by clicking on [<] or [>]. Manual entry of the grid. Pos: 146 /TD/Produkt verwenden/testo Saveris/05a-3 Achseinstellungen/07 Zeitachse @ 0\mod_1193999544199_79.doc @ 5704 Settings for the time axis

> With the right mouse button, click on the time axis in the diagram.

- The Adjust time axis dialogue is shown. Designation

[OK]

[Cancel]

Position Explanation Applies the settings until other data are called up. The dialogue is closed. Closes the dialogue without applying any changes. Shows a freely-definable extract of the diagram. Autom. scaling... Shows the entire diagram in the window. Extract Shows a fixed, defined extract that can be moved over the time axis. 0970 4020 en 01 109 6 Using the product Explanation Limits for the Position view. Specification of which time period should at least be shown. Designation Limits from ... to (if Position view is activated) Minimum time cycle (if Extract view is activated) Selection list for the unit (if Extract view is activated)

(second)

(minute)

(hour)

(day). Unit of the time axis in the minimum time cycle:

sec min h d All times are the real times at which the readings were recorded. Sets the starting time to 00:00; the time the runs relative to this starting point. The function associated with this is not available in the Small Business Edition.

[Store as defaults] Saves the current settings as the default Paging enabled Absolute Relative setting. Division Automat. Specification that the program should perform the division of the axis. Specification that the division of the axis should be performed manually. Decrease or increase the division of the axis by clicking on [<] or [>]. Division Manual Grid [<], [>] (if automatic division is activated) Interval (if manual division is activated) Selection list for the unit (if manual division is activated) Manual entry of the grid. Unit of the time axis:

sec

(second) min

(minute) h

(hour) d

(day). 110 0970 4020 en 01 testo AG 6 Using the product Pos: 147 /TD/Produkt verwenden/testo Saveris/05b Tabellen analysieren/00 Tabellen @ 0\mod_1188996635000_79.doc @ 3555 6.5.2. Table view The readings are listed in table form in this view. In the Start | View menu, the Table command is activated. Now you have to select the data record that you wish to display. 1. Select the day or time period in the calendar that should be evaluated. 2. In the tree structure of the data range, open the zone that contains the data to be displayed.

- The table view of the selected data is shown.

If necessary, deactivate channels via the checkboxes for the display. Pos: 148 /TD/Produkt verwenden/testo Saveris/05b Tabellen analysieren/01 Messwerte markieren @ 0\mod_1188996635625_79.doc @ 3565 6.5.2.1. Marking readings Mark specific readings to perform a statistical computation for part of the measurement series, for example. 1. Click on Edit | Tools | Mark.

- A dialogue for determining the criteria is shown. 0970 4020 en 01 111 6 Using the product 2. Select the Select Date/time if the readings for a particular time period are to be marked.

- The selection lists are enabled for the determination of the time period. Select the Index range if the readings in particular rows in the table are to be marked.

- The selection lists are enabled for the determination of the index range. 3. Determine time period or index range. 4. Click on [OK].

- The dialogue is closed and the corresponding readings are marked in the table. You can also mark readings with the mouse, as you are familiar with from Office applications. Pos: 149 /TD/Produkt verwenden/testo Saveris/05b Tabellen analysieren/02 Markierung aufheben @ 0\mod_1188996637078_79.doc @ 3575 6.5.2.2. Pos: 150 /TD/Produkt verwenden/testo Saveris/05b Tabellen analysieren/03 Extremwert oder Mittelwert einfgen @ 0\mod_1188996637890_79.doc @ 3585 6.5.2.3. Dropping the marking

> Click on Edit | Tools | Drop marking.

- The marking of the readings is deleted. Inserting extreme values or mean in the table Insert the minimum/maximum reading as well as the mean from the whole table at the end of the table. 1. Click on Edit | Tools | Extra lines | Minimum, Maximum or Mean value.

- A row with the corresponding value for all readings is inserted at the end of the table.

> Repeat step 1 to insert another value in the table. Pos: 151 /TD/Produkt verwenden/testo Saveris/05b Tabellen analysieren/04 Verdichten @ 0\mod_1188996638437_79.doc @ 3595 To erase a value from the table again, click in the Extra lines menu again on the corresponding entry. 112 0970 4020 en 01 testo AG 6.5.2.4. 6 Using the product Compressing readings Compress the table to definable intervals to maintain the clarity of the table with large amounts of data. Only the first and the last value are shown for the individual intervals. The other readings are hidden. In addition, the minimum, maximum and/or average value can be shown for the respective time period. 1. Click on Edit | Tools | Compress.

- The dialogue for determining the options is opened.

> Use the checkboxes to determine whether the respective minimum reading (Min), maximum reading (Max) and/or average value (Mean) should be calculated for the individual time spans. At least one of these values must be activated to be able to perform the compression of the table. 2. Enter the time span under Extract and determine its unit. Possible settings for the unit:

sec min h d

(second)

(minute)

(hour)

(day). 3. Click on [OK].

- The dialogue is closed and the table is shown compressed. Pos: 152 /TD/Produkt verwenden/testo Saveris/05b Tabellen analysieren/05 Verdichtung aufheben @ 0\mod_1188996639140_79.doc @ 3605 0970 4020 en 01 113 6 Using the product 6.5.2.5. Pos: 153 /TD/Produkt verwenden/testo Saveris/05b Tabellen analysieren/07 grter Messwert @ 0\mod_1188996639859_79.doc @ 3625 6.5.2.6. Pos: 154 /TD/Produkt verwenden/testo Saveris/05b Tabellen analysieren/08 Kleinster Messwert @ 0\mod_1188996639562_79.doc @ 3615 6.5.2.7. Pos: 155 /TD/Produkt verwenden/testo Saveris/06c Alarme analysieren/00 Alarme analysieren @ 0\mod_1189079097312_79.doc @ 3954 6.6. Dropping compression

> Click on Edit | Tools | Drop compression.

- The table is shown again in its uncompressed form. Determining largest reading

In the Edit | Find | Maximum menu click on the curve for which the largest reading should be determined.

- The largest reading is shown marked in the table. Determining the smallest reading

In the Edit | Find | Minimum menu click on the curve for which the smallest reading should be determined.

- The smallest reading is shown marked in the table. Analyzing alarms If system or probe alarms were triggered by the Saveris base, you can check the alarms and subsequently confirm

(acknowledge) them. symbol in the display range of the task bar also The you that an alarm was issued by the Saveris base, even with the software closed. If you move to the symbol with the mouse information is shown regarding the alarm. If an alarm is not triggered, this is shown by the symbol. Pos: 156 /TD/Produkt verwenden/testo Saveris/06c Alarme analysieren/01 Alarme prfen @ 0\mod_1189079390359_79.doc @ 3963 6.6.1. Checking alarms

In the diagram or table view under Start | View mark the Alarms option.

- The alarms received are shown in the Overview below the diagram or the table.

114 Designation Explanation 0970 4020 en 01 testo AG 6 Using the product Designation Source Time Condition Status Explanation Probes on which the breach of the limit value has occurred. Date and time at which the message is received. Condition that was fulfilled so that the alarm was triggered; e.g. Limit value overrun. Date and time, when the alarm was triggered. Any comments on the alarm. Comments Tel. number/name Telephone number or recipient for the alarm message

If needed, enter Comments on an alarm in the column of the same name. Pos: 157 /TD/Produkt verwenden/testo Saveris/06c Alarme analysieren/02 Alarm quittieren @ 0\mod_1189079436328_79.doc @ 3973 6.6.2. Acknowledge the alarm If you acknowledge an alarm at the Saveris base, this is carried over into the software. If you have received an alarm message by SMS, you can acknowledge the alarm by sending the received SMS with the same text back to the mobile number of the Saveris base.

Switch to the Acknowledgement tab in the calendar and acknowledgement section.

- The list of the registered channels is shown. 0970 4020 en 01 115 6 Using the product Designation Source Time Condition Explanation Designation of the individual channels of the registered probes. The channel delivers measurement data within the limit values. A limit value has been breached and the Saveris base has triggered an alarm. Date and time, when the alarm was triggered. Condition that was fulfilled so that the alarm was triggered. 4. Click with the right mouse button on the alarm entry that is to be confirmed and select the Acknowledge command in the context menu.

- The Acknowledgement dialogue is opened. 116 0970 4020 en 01 testo AG 6 Using the product 5. Mark the entry of the alarm that should be acknowledged. 6. If needed, enter Comments on the alarm in the field of the same name and confirm the alarm with [OK].

- The symbol shows that the alarm was confirmed and the comments are carried over in the alarm list in the display range. The confirmation of the alarm is transmitted to the Saveris base. As soon as the confirmation is received in the Saveris base, the alarm relay stops flashing and the alarm is deleted. Pos: 158 /TD/Produkt verwenden/testo Saveris/07 Berichte/00 Berichte erstellen @ 0\mod_1190280535671_79.doc @ 5032 6.7. Pos: 159 /TD/Produkt verwenden/testo Saveris/07 Berichte/01 Bericht drucken @ 0\mod_1189522120546_79.doc @ 4294 6.7.1. Creating evaluations You can print out series of measurements or have reports on the data automatically created by the software in definable intervals. Printing measurement data Measurement data can be printed in diagram or table form. 1. Select the day or time period in the calendar for which the report should be created.

- The data for the day or the time period are shown as a diagram or table, depending on the setting. In the Start | View menu, select the Diagram command if the table view is activated but the

diagram view should be printed. Table command if the diagram view is activated but the table view should be printed. 0970 4020 en 01 117 6 Using the product 2. Select the type of report head in the Template | Template menu. Open the preview of the report using the File (Testo logo) | Print preview command. Use portrait format for printing a table and landscape format for printing a diagram. You can determine the format under File | Page Setup.... 3. Select the Print command in the File menu.

- The Print dialogue for selecting the printing options is shown. 4. Change printing options, if needed, and click on [OK].

- The report is printed. title, The report head contains the following information:

number of pages, date, start and end time for a measurement (only for tables), specification of the extreme values and the mean value for every curve, number of channels and readings (only for tables), other comment lines. input options for "Conditions" and Pos: 160 /TD/Produkt verwenden/testo Saveris/07 Berichte/02 ** Automatische Berichte @ 0\mod_1189522147015_79.doc @ 4304 6.7.2. Archiving with automatic reports A simple and secure option for archiving your data is the automatic creation of reports. The reports are created by the software and recorded on a daily, weekly or monthly basis at a specified location on the computer or a server; also see the chapter "Report settings" for this. The reports are saved as PDF files so that they can easily be read or sent per e-mail but without being able to change the data stock. 118 0970 4020 en 01 testo AG 6 Using the product Pos: 161 /TD/Produkt verwenden/testo Saveris/07 Berichte/03 ** Langzeitarchivierung und Datensicherung @ 0\mod_1190970854000_79.doc @ 5223 6.8. Creating a new database (project) The licence-free database system Microsoft SQL Server 2005 Express is installed as standard with the testo Saveris software. The Microsoft SQL Server 2005 Express can manage databases up to a size of 4 GB. Before reaching the maximum capacity of the database, you receive a warning message from the Saveris software in good time in which you are made aware of the remaining life. In this case, close the database by ending and saving the current project and create a new project, and thus a new database. The possible duration of the recording is primarily determined by the measuring rate with a constant number of channels. If the Saveris base, for example, records the data from 20 channels with a measuring rate of 2 minutes, the database can save data for longer than ten years in this configuration. 1. Under Start | All Programs | Testo click on Saveris Startup Assistant.

- The welcome dialogue of the startup assistant is shown. 0970 4020 en 01 119 6 Using the product 2. Click on [Continue >].

- The System status dialogue with the General tab is shown. 3. Change to Projects tab. 4. Mark the project that is to be ended and click on [End Measuring Mode].

- A notification is shown in which you must confirm the reset of Saveris base to the basic configuration. 5. Click on [Yes] to reset the Saveris base to the basic configuration.

- All components are deleted from the Saveris base and the project is closed in the Saveris software. To be able to start a new project, you must reconnect all components to the Saveris base and then start up the hardware again. Pos: 162 /TD/Produkt verwenden/testo Saveris/09 Einstellungen System/00 Einstellungen System @ 0\mod_1189493729343_79.doc @ 4233 120 0970 4020 en 01 testo AG 6 Using the product 6.9. System settings In this menu, determine the settings for the Saveris base, the radio probes and if installed in the measuring system the Ethernet probes, router and converter.

> Click on System in the navigation area.

- The following entries are shown in the tree structure in the data range:

Base with the general settings of the Saveris base and the SMS module (if present) as well as the operating data of the probes. Radio probe with the settings for the radio probes connected to the Saveris base. Ethernet probe with the settings for the Ethernet probes attached to the Saveris base. Router with the settings for the routers connected to the Saveris base. Converter with the settings for the converters connected to the Saveris base. Pos: 163 /TD/Produkt verwenden/testo Saveris/09 Einstellungen System/01 Allgemein @ 0\mod_1188997905046_79.doc @ 3801 6.9.1. General settings for the Saveris base Using this menu item you can, for example, synchronize the date and time of the Saveris base with the values from the computer or change the IP address of the Saveris base. 1. Open the Base entry.

- The submenu items General, SMS module and Operating data are shown under the entry. 2. Click on General to open the basic settings for the Saveris base.

- The settings of the Saveris base are shown in the display range. 0970 4020 en 01 121 6 Using the product Designation Serial number Firmware Date and time

[Synchronize]

IP address Explanation Serial number of the Saveris base. Version number of the instrument software in the Saveris base. Date and time of the Saveris base. Date and time from the operating system are applied to the Saveris base. IP address of the Saveris base. Pos: 164 /TD/Produkt verwenden/testo Saveris/09 Einstellungen System/02 SMS-Modul @ 0\mod_1188997905750_79.doc @ 3811 6.9.2. System settings for the GSM module Using this menu item, you enter the data of the SIM card and can determine whether the alarm messages are to be sent again if the first attempt at sending them should fail. To be able to use the notification function via SMS you require a Saveris base with an integrated GSM module. 1. Open the Base entry.

- The submenu items General, SMS module and Operating data are shown under the entry. 2. Click on SMS module to open the settings for sending the SMS messages. 122 0970 4020 en 01 testo AG 6 Using the product

- The settings are shown in the display range. Designation PIN SMS centre Explanation PIN number of SIM card. Number of the message centre. Pos: 165 /TD/Produkt verwenden/testo Saveris/09 Einstellungen System/03 Betriebsdaten @ 1\mod_1197536994375_79.doc @ 6253 6.9.3. Show operating data of the probes. Using this menu item, you can check when the last data were received from a probe, for example, and the duration until the next readings can be expected. 1. Open the Base entry.

- The submenu items General, SMS module and Operating data are shown under the entry. 2. Click on Operating data to look at the connection data.

- The connection data are listed in the display range according to probe. 0970 4020 en 01 123 6 Using the product Designation Serial no. _Sync _SND _RCV _next Sync _Starttime _Values within

[min]

Pos: 166 /TD/Produkt verwenden/testo Saveris/09 Einstellungen System/03 Wireless probes @ 0\mod_1189598701171_79.doc @ 4463 Explanation Serial number of the probe Date and time of the last connection. Date and time when the probe last sent data. Date and time when the probe last received data. Date and time of the next planned connection establishment. Date and time of the first measurement of the probe. Duration in minutes until the probe delivers the next data. 6.9.4. Settings for the radio probe Using this menu item you can, for example, check the battery status of the probe or the quality of the radio transmission. 1. Open the Radio probe entry.

- The radio probes connected in the Saveris base are listed under the entry. 124 0970 4020 en 01 testo AG 6 Using the product 2. Click on one of the probe names to open the information on the probe.

- The settings of the selected radio probe are shown in the display range. Designation Serial number Firmware Radio quality Meas. cycle Battery status Battery type Type Pos: 167 /TD/Produkt verwenden/testo Saveris/09 Einstellungen System/04 Ethernet probes @ 0\mod_1190896768531_79.doc @ 5172 Explanation Serial number of the probe. Version number of the probe's instrument software. Field strength of the last radio link to the Saveris base. Interval in which the measurements should be performed. Charge level of the batteries in the probe. Selection list for specifying the battery type (AlMn or Energizer) Specification of the probe type. 6.9.5. Ethernet probes Using this menu item, you can, for example, check the version of the instrument software or the IP address of an Ethernet probe. 0970 4020 en 01 125 6 Using the product 1. Open the Ethernet probe entry.

- The Ethernet probes connected to the Saveris base are shown under the entry. 2. Click on one of the probe names to open the information on the probe.

- The settings of the selected probe are shown in the display range. Designation Serial number Firmware IP address Meas. cycle Type Explanation Serial number of the probe. Version number of the probe's instrument software. IP address of the probe. Interval in which the measurements should be performed. Specification of the probe type. Pos: 168 /TD/Produkt verwenden/testo Saveris/09 Einstellungen System/05 Router @ 1\mod_1197537685343_79.doc @ 6263 6.9.6. Router Using this menu item, assign which radio probes should transfer their measurement data to the Saveris base via a router. 1. Open the Router entry. 126 0970 4020 en 01 testo AG 6 Using the product

- Under the entry the routers connected at the Saveris base are shown and the radio probes connected at the base are listed in the display range. Designation Serial no. Connection type Explanation Serial number of the radio probe. Specification as to whether the radio probe has a Direct connection to the Saveris base or if a router transmits the readings (display of the router serial number). The structure overview shows you which radio probes are directly connected to the Saveris base and which are integrated into the measuring system via a router. 2. Click in the connection type cell of the probe which is to be assigned to a router. Pos: 169 /TD/Produkt verwenden/testo Saveris/10 Einstellungen Berichte/00 Einstellungen Berichte @ 0\mod_1189494078218_79.doc @ 4243 6.10.

- The cell is shown as a selection list. Report settings In the report settings, you can determine how the automatic reporting should take place. 1. Click on Reports in the navigation area. 0970 4020 en 01 127 6 Using the product

- The Settings for reports submenu is shown in the data window. 2. Click on Settings for reports.

- The report settings are shown in the display range. Pos: 170 /TD/Produkt verwenden/testo Saveris/10 Einstellungen Berichte/01 Settings @ 0\mod_1188997925140_79.doc @ 3821 Designation

[New report]

List of the reporting tasks Zones Explanation Adds a new reporting task to the list. List of the created reporting tasks. Selection list of the group for which the report should be created. Time of the creation Specification as to whether the report should be created Daily, Weekly or Monthly. Daily: The report is created daily at 12 a.m. Weekly: The report is created every Sunday at 12 a.m. Monthly: The report is created on the last day of the month at 12 a.m. Content group field With activated option the corresponding 128 0970 4020 en 01 testo AG Designation Cover page Graph Table Alarms Send to receiver option 6 Using the product Explanation data sheet is attached to the report. Specification as to whether the report should be sent to an employee by e-mail. If the function is activated, the input fields for the recipient address and the subject line as well as the [Address book] button are shown.

[Address book]

Recipient input field Input field for the e-mail address of the employee to whom the report is to be sent. Opens the dialogue for the selection of the recipient from the Outlook contact list. Input field for the subject line. Input field for the address that should be shown on the pages of the report. Subject Data sheet address field Pos: 171 /TD/--- Seitenwechsel --- @ 0\mod_1173774430601_0.doc @ 283 The storage location for the reports was determined during the installation of the Saveris software. Generally this is C:\Documents and Settings\All Users\Documents\Saveris Small Business Edition. 0970 4020 en 01 129 7 Maintaining the product Pos: 172 /TD/berschriften/7. Produkt instand halten @ 0\mod_1173789831362_79.doc @ 397 Pos: 173 /TD/Produkt instand halten/testo Saveris/00 Ersatz von Komponenten @ 0\mod_1188476464890_79.doc @ 2909 7 7.1. Maintaining the product Replacement of components You can shut down a component probe, converter or router at any time because this is temporarily not in use or to replace it with a new component, for example, in the event of a defect. In the event of a replacement of the Saveris base, you must reinstall the software and set up the entire measurement system again. Remember to save the existing measurement data before reinstalling the software. Pos: 174 /TD/Produkt instand halten/testo Saveris/01 Komponenten entfernen @ 0\mod_1193737448921_79.doc @ 5643 7.1.1. Deleting components 1. Under Start | All Programs | Testo click on Saveris Startup Assistant.

- The welcome dialogue of the startup assistant is shown. 2. Click on [Continue >].

- The System status dialogue with the General tab is shown. 130 0970 4020 en 01 testo AG 7 Maintaining the product 3. Change to Projects tab. 4. Click on [Log out component].

- The Log out component dialogue is shown. 5. Activate the checkbox in front of the component that is to be logged out of the system. 6. Click on [OK].

- A query to erase the components from the configuration is shown. 7. Confirm the query with [Yes].

- The component is deleted from the configuration.

> After deleting a probe, briefly press the connect button on the rear of the probe so that the probe no longer attempts to send measurement data. 0970 4020 en 01 131 7 Maintaining the product Pos: 175 /TD/Produkt instand halten/testo Saveris/02 Komponenten hinzufgen @ 0\mod_1188476503984_79.doc @ 2918 7.1.2. Adding components 1. Connecting new probes at the Saveris base; see

"Connecting radio probe". 2. Start up testo Saveris software.

- The software recognizes that a new probe is located in the system and the wizard for the installation of a new component is started. 3. Click on [Continue >].

- The Commission new probe dialogue is shown. 132 0970 4020 en 01 testo AG 7 Maintaining the product 4. Leave default setting and click on [Continue >].

- The list of the probes newly registered in the Saveris base is shown. 0970 4020 en 01 133 7 Maintaining the product The fields of the Channel name column for probe designations are required fields. You must fill in these fields to be able to continue with the startup. The Lower limit and Upper limit fields are already preassigned limit values, but you can adapt the limit values to your requirements. The limit values determine as of which reading the Saveris base triggers an alarm. 5. Click in the Channel name field and enter the designation

of the probe, e.g. "Room 4". Click in the Lower limit field and change the lower limit value. If all probes are to have the same limit value, click on the column title with the right mouse button and then click on Apply to all in the context menu. This also applies for the upper limit value in the next step.

Click in the Upper limit field and change the upper limit value.

> Click in the TC type field and enter the type of thermocouple

if this information is required for the instrument. Perform step 4 and the following for all other new probes until all required fields are filled. 6. Click on [Continue >].

- The settings for measuring cycle, the alarm delay and the alarm issue are shown. 134 0970 4020 en 01 testo AG 7 Maintaining the product 7. Enter the Measuring cycle and determine its Unit. The measuring cycle determines in which intervals a new reading is saved in the Saveris base. Possible settings for the unit:

sec min h The smallest transfer rate for radio probes is one minute.

(second)

(minute)

(hour). 8. Determine Alarm delay. If you enter the value "5" for example, an alarm is not triggered by the Saveris base until the fifth time that the limit value is exceeded. 9. Determine in which cases a system alarm should be triggered. 10. Click on [Continue >].

If a router is connected at the Saveris base the configuration of the connection type for the probes is shown. If no router is connected continue with step 15. 0970 4020 en 01 135 7 Maintaining the product 11. Click in the Connection type cell of the probe which is to be assigned to a router.

- The cell is shown as a selection list. 12. Open the selection list via the button to which the probe is to be assigned. and select the router 13. Perform steps 11 and 12 for all remaining probes whose measurement data is to be transmitted to the Saveris base via a router. 14. Click on [Continue >].

- The wizard is shown with the setting for the start of measurement and the list of the newly registered probes. 136 0970 4020 en 01 testo AG 7 Maintaining the product 15. Postpone the start of measurement, if necessary. 16. Click on [Finish] to complete the startup of the hardware.

- A note on the successful configuration of the hardware is shown. Pos: 176 /TD/Produkt instand halten/testo Saveris/Kalibrierung und Justage @ 0\mod_1188476360640_79.doc @ 2882 7.2. 17. Press [OK] to confirm the note.

- The new hardware is now ready for operation. Calibration and adjustment All testo Saveris probes are adjusted in the factory, which is confirmed by the corresponding adjustment report. You can undertake other calibrations or adjustments on site. The separate Saveris adjustment software is available for this. After successful adjustment, the current adjustment data is stored in the probe. At the same time, the adjustment software and the Saveris software accept this data so that the adjustment histories are available. 0970 4020 en 01 137 7 Maintaining the product Pos: 177 /TD/Produkt instand halten/testo Saveris/Fhler von Wandhalterung abnehmen @ 0\mod_1191328027078_79.doc @ 5382 7.3. Removing probe from wall bracket 1 3 2 1. Using a narrow flat tip screwdriver from the wall bracket

. release the probe Pos: 178 /TD/Produkt instand halten/testo Saveris/Batterien am Fhler wechseln @ 0\mod_1188476555656_79.doc @ 2927 2. Remove probe from wall bracket towards top, as shown. 138 0970 4020 en 01 testo AG 7 Maintaining the product 7.4. Changing batteries at probe The batteries have a life of 3 years with standard AlMn batteries at +25 C and 3 years with Energyzer L91 Photo lithium batteries for freezer applications. You can check the battery status of the probes via the Saveris software. To do so, select the probe that you wish to check under System | Radio probe. In the Battery status field, the current charge state is shown. 3 2 1

> Remove probe from the wall bracket; see "Removing probe from wall bracket". 1. Loosen screws 2. Remove housing cover of probe on the rear of the probe. 0970 4020 en 01 139 7 Maintaining the product 3. Change batteries

. Ensure that you insert the batteries correctly. The correct polarity is illustrated in the respective battery compartment. 4. Place housing cover on probe housing. 5. Screw cover down close to the housing. A control switch is located in the housing that is actuated through the cover. To do so, the cover must be screwed to the probe housing without a gap. If the control switch is not actuated through the cover, the probe cannot be operated. Caution! Unintended residual discharge when disposing of old batteries.

> Mask the poles of the old batteries in order to prevent an unintended residual discharge by means of short-circuits during disposal. Pos: 179 /TD/--- Seitenwechsel --- @ 0\mod_1173774430601_0.doc @ 283 140 0970 4020 en 01 testo AG Pos: 180 /TD/berschriften/3.2 Technische Daten @ 0\mod_1176211088437_79.doc @ 704 7 Maintaining the product 7.5. 7.5.1. Pos: 181 /TD/Leistungsbeschreibung/Technische Daten/testo Saveris/01 Basisstation @ 0\mod_1191323639453_79.doc @ 5302 Technical data Saveris base Characteristic Memory Dimensions Weight Protection class Housing material Radio frequency Power supply Rech. batt. Operating temperature Storage temperature Display Interfaces Number of radio probes Alarm relay GSM module Installation Values 40,000 values per channel (total max. 10,160,000 values) 225 x 150 x 49 mm approx. 1510 g IP42 Die-cast zinc/plastic 868 MHz/2.4 GHz 6.3 V DC mains unit; alternatively via 24 V AC/DC plug-in/screw terminals, power consumption < 4 W. Li-ion battery The rechargeable battery is used only for backing up data and for emergency SMS in the event of failure of the power supply, not for the power supply during operation.

-10 to +50 C

-40 to +85 C Graphical LCD display USB, radio, Ethernet max. 15 probes can be directly connected via radio interface, max. 150 total via radio/router/converter and Ethernet, max. 254 channels. max. 1 A, max. 30 W, max. 60/25 V DC/AC, NC or NO contact 850/900/1800/1900 MHz Table base and wall bracket included 0970 4020 en 01 141 7 Maintaining the product Pos: 182 /TD/Leistungsbeschreibung/Technische Daten/testo Saveris/05 Fhler @ 0\mod_1191323803625_79.doc @ 5342 7.5.2. Saveris radio probe General The technical data listed in the following table are valid for all Saveris radio probes. Special data for the individual probe types can be found in the following sections. Characteristic Housing dimensions

(W x H x D) Length of antenna Weight Battery type Battery life Values 80 x 85 x 38 mm 81 mm approx. 240 g 4 AA mignon batteries 3 years at +25 C 3 years with Energyzer L91 Photo lithium batteries for freezer applications Plastic 868 MHz/2.4 GHz Standard 15 min (can be set from 1 min up to 24 h)

-40 to +55 C Housing material Radio frequency Meas. cycle Storage temperature Display (optional) Transmission distance Wall bracket 2-line LCD; 7 segments with symbols approx. 300 m free field at 868 MHz, approx. 100 m free field at 2.4 GHz included 142 0970 4020 en 01 testo AG 7 Maintaining the product Saveris T1/T1D radio probe Characteristic Probe type Measuring range Accuracy Resolution Protection class Conformity with standards Operating temperature Values NTC

-35 to +50 C 0.4 C (-25 to +50 C) 0.8 C (rest of measuring range) 0.1 C IP68 DIN EN 12830

-35 to +50 C 0970 4020 en 01 143 7 Maintaining the product Saveris T2/T2D radio probe Radio probe with external probe connection and internal NTC, door contact Characteristic Probe type

(internal) Measuring range

(internal) Accuracy

(internal) Resolution

(internal) Probe type

(external) Measuring range

(external) Accuracy

(external) Resolution

(external) Connection Protection class Conformity with standards Operating temperature Values NTC

-35 to +50 C 0.4 C (-25 to +50 C) 0.8 C (rest of measuring range) 0.1 C NTC

-50 to +150 C 0.2 C (-25 to +70 C) 0.4 C (rest of measuring range) 0.1 C NTC via mini-DIN socket, door contact connection cable included in delivery

(1.80 m) IP68 (with probe inserted or port sealed with rubber plug) DIN EN 12830

-35 to +50 C 144 0970 4020 en 01 testo AG 7 Maintaining the product Saveris T3/T3D radio probe 2-channel radio probe with 2 external TC probe connections

(TC characteristics can be selected) Characteristic Probe type Measuring range TC type J TC type K TC type S TC type T Accuracy Resolution Connection Protection class Operating temperature Values TC

-100 to +750 C

-195 to +1350 C 0 to +1760 C

-200 to +400 C 0.5 C or 0.5 % of measured value 0.1 C/TC type S 1 C 2 TCs via TC socket, max. difference in potential 2 V IP54 (with probe inserted or port sealed with rubber plug)

-20 to +50 C The probe inputs are not isolated from one another. Take this into account when using probes with non-

isolated thermocouple. 0970 4020 en 01 145 7 Maintaining the product Saveris Pt/PtD radio probe Radio probe with an external Pt100 probe connection Characteristic Probe type Measuring range Accuracy Resolution Connection Protection class Operating temperature Values Pt100

-200 to +600 C 0.1 C (0 to +60 C) 0.2 C (-100 to +200 C) 0.5 C (rest of measuring range) at 25 C 0.01 C 1 Pt100 via mini-DIN socket IP68 (with probe inserted or port sealed with rubber plug)

-20 to +50 C 146 0970 4020 en 01 testo AG 7 Maintaining the product Saveris H3/H3D radio probe Humidity radio probe Characteristic Probe type Measuring range Accuracy Resolution Protection class Operating temperature Values NTC

-20 to +50 C 0.5 C 0.1 C/0.1 Ctd IP 42

-20 to +50 C Humidity sensor 0 to 100 % RH 3 % RH 0.1 %

Pos: 183 /TD/Leistungsbeschreibung/Technische Daten/testo Saveris/04 Router @ 0\mod_1191323737875_79.doc @ 5332 0970 4020 en 01 147 7 Maintaining the product 7.5.3. Saveris router Characteristic Housing dimensions

(W x H x D) Length of antenna Weight Power supply Housing material Protection class Operating temperature Storage temperature Interfaces Number of radio probes Wall bracket Values 80 x 100 x 38 mm 81 mm approx. 180 g 6.3 V DC mains unit;

alternatively via 24 V AC/DC plug-

in/screw terminals, power consumption < 5 W Plastic IP54

-20 to +50 C

-40 to +85 C Radio max. 5 included Pos: 184 /TD/Leistungsbeschreibung/Technische Daten/testo Saveris/06 Ethernet-Fhler @ 1\mod_1197559409437_79.doc @ 6435 148 0970 4020 en 01 testo AG 7 Maintaining the product Saveris Ethernet probes The technical data listed in the following table are valid for all Saveris Ethernet probes. Special data for the individual probe types can be found in the following sections. Characteristic Housing dimensions

(W x H x D) Power supply Values 85 x 100 x 38 mm Buffer battery Housing material Protection class Meas. cycle Operating temperature Storage temperature Display (optional) Wall bracket 6.3 V DC mains unit;

alternatively via 24 V AC/DC plug-

in/screw terminals Li-ion Plastic IP54 2 sec - 24 h

-20 to +70 C

-40 to +85 C 2-line LCD; 7 segments with symbols included 0970 4020 en 01 149 7.5.4. 7 Maintaining the product Saveris PtE Ethernet probe Ethernet probe with external Pt100 probe connection Characteristic Probe type Measuring range Accuracy Resolution Connection Weight Values Pt100

-200 to +600 C 0.1 C (0 to +60 C) 0.2 C (-100 to +200 C) 0.5 C (rest of measuring range) at 25 C 0.01 C Mini-DIN service interface is accessible externally 1 Pt100 via mini-DIN socket approx. 220 g 150 0970 4020 en 01 testo AG 7 Maintaining the product Saveris T4E Ethernet probe 4-channel Ethernet probe with 4 external TC probe connections Characteristic Probe type Measuring range TC type S TC type T TC type J TC type K Accuracy Resolution Connection Weight Values TC 0 to +1760 C

-200 to +400 C

-100 to +750 C

-195 to +1350 C 0.5 C or 0.5 % of measured value 0.1 C/TC type S 1 C Mini-DIN service interface is accessible externally 4 TCs via TC socket max. difference in potential 50 V approx. 220 g The technical data refer to the probe in a stable, stationary operating mode. To receive a stable measurement the probe must be in operation for one to two hours. The usage of isolate thermocouples is recommended for supplying the Ethernet probe. Otherwise discrepancies in readings of up to 0.6 C may occur due to leakage currents. 0970 4020 en 01 151 7 Maintaining the product H2E Ethernet probe Humidity Ethernet probe, 2 %

Characteristic Probe type Measuring range Accuracy Resolution Connection Weight NTC

-20 to +70 C 0.5 C Values Humidity sensor 0 to 100 % RH*

2 % RH < 90 % RH 3 % RH > 90 % RH 0.1 %/0.1 Ctd Mini-DIN service interface is accessible externally approx. 230 g 0.1 %

* not for continuous high-humidity applications 152 0970 4020 en 01 testo AG 7 Maintaining the product H1E Ethernet probes Humidity Ethernet probe, 1 %

Characteristic Probe type Measuring range Accuracy Resolution Connection Weight NTC

-20 to +70 C 0.2 C

(0 to +30 C) 0.5 C (rest of measuring range) Values Humidity sensor 0 to 100 % RH*

(1 % RH + 0.7 % of meas. value)

< 90 % RH at 25 C

(1.4 % RH + 0.7 %

of meas. value)

> 90 % RH at 25 C 0.1 %/0.1 Ctd Mini-DIN service interface is accessible externally approx. 230 g 0.1 %

* not for continuous high-humidity applications 0970 4020 en 01 153 7 Maintaining the product Pos: 185 /TD/Leistungsbeschreibung/Technische Daten/testo Saveris/04-2 Converter @ 1\mod_1196955545798_79.doc @ 6063 7.5.5. Saveris converter Pos: 186 /TD/--- Seitenwechsel --- @ 0\mod_1173774430601_0.doc @ 283 Characteristic Housing dimensions

(W x H x D) Length of antenna Weight Power supply Housing material Protection class Operating temperature Storage temperature Interfaces Number of radio probes Wall bracket Values 80 x 100 x 35 mm 81 mm approx. 190 g 6.3 V DC mains unit;

alternatively via 24 V AC/DC plug-

in/screw terminals, power consumption < 2 W Plastic IP54

-20 to +50 C

-40 to +85 C Radio, Ethernet max. 15 included 154 0970 4020 en 01 testo AG 8 Tips and assistance Pos: 187 /TD/berschriften/8. Tipps und Hilfe @ 0\mod_1173789887985_79.doc @ 406 8 8.1. Pos: 188 /TD/berschriften/8.1 Fragen und Antworten @ 0\mod_1177402017078_79.doc @ 1093 Pos: 189 /TD/Tipps und Hilfe/Fragen und Antworten/testo Saveris/FAQ Probleme und Lsungen @ 0\mod_1188479044703_79.doc @ 3046 Tips and assistance Questions and answers 1. After changing the batteries, I no long receive values from my probe and the LED on the front does not light up. Check whether the housing cover is bolted down correctly. Check the batteries with an appropriate measuring instrument and if necessary exchange these if they are not OK. Briefly press the button on the rear of the probe and the LED must show the radio quality; see "

0970 4020 en 01 155 8 Tips and assistance Meaning of the LED displays at the probes". If this is not the case and the probe flashes red, the configuration of the probe is faulty. Reconnect the probe and reconfigure it. 2. Only the battery symbol and the symbol of the radio quality appear on the display of my probe. The probe has not yet received a valid configuration. Connect the probe to the base and execute the startup assistant. 3. Despite the proper connection of a probe, I do not receive readings after the probe was placed at its location. Press the button on the rear of the probe. If the LED on the front flashes red, the probe is outside of the radio range. Install a router in the system and assign the probe to the router using the startup assistant (see "Integrating Saveris router (optional)") or Place the probe at a suitable location so that the probe is within the radio range. 156 0970 4020 en 01 testo AG 8 Tips and assistance 4. A probe is too far away from the Saveris base. Even integrating a router was unsuccessful. Can I connect multiple routers in series to extend the radio range?

No, connecting multiple routers in series is not possible. To bridge the transmission path, you have the option of using a router and a converter and creating the connection from the converter to the Saveris base using an Ethernet cable. 5. Can the data transfer from the radio probes to the base be influenced by other instruments communicating by radio?

A disruption of the transfer by other radio subscribers that operate with the same radio frequency as the Saveris system is not impossible. However, routines were implemented in the Saveris system that prevent the loss of data. The data are transferred via an intelligent protocol that can head off faults or only transfers data when the radio frequency is free. 6. What must I take into account when placing the individual components?

The local conditions must be taken into account for the placement. The radio is obstructed by objects such as thick walls made of reinforced concrete, metal doors etc. You can seek out suitable locations using a radio probe. Briefly press the button on the rear of the probe to show the current radio quality by means of the LED; see "

0970 4020 en 01 157 8 Tips and assistance Meaning of the LED displays at the probes". If you are outside of the range the LED lights up red. You can then create or optimize the transmission path with a router connected between the Saveris base and the probe. Rough advanced planning using a floor plan of the building has proved itself worthwhile. 7. The Saveris base shows an incorrect date and an incorrect time. How can this be set?

You can synchronize the date and time when starting up the hardware or within the Saveris software, meaning applying the date and time from the operating system of the computer; see "Starting up hardware" and "General settings for the Saveris base". The changeover between winter/summer time is made automatically. 8. How long may the USB cable between the base and the computer be?

The USB cable for connecting the Saveris base to the computer may be a maximum of 5 m. 9. Why is a bidirectional radio used with testo Saveris?

Only by using a bidirectional radio (i.e. probes and Saveris base are both transmitters and receivers) is it possible to ensure that the data communication between the participants can be performed without loss of data. 10. After the configuration of the probes and the base the software was started, but no probes or readings are shown. For the initial start of the Saveris software after starting up the system, it takes approx. 15 to 60 minutes until the first readings from the system are entered in the database. The probes and their readings are only visible in the software when the data are present in the database. 11. The base was connected to a USB port of the computer but is not automatically recognized by this. Download the current USB driver for the Saveris system from the Testo website (www.testo.com/saveris) and install the new driver. The Saveris base may not be connected to the computer during the installation of the driver. After restarting the 158 0970 4020 en 01 testo AG Pos: 190 /TD/berschriften/8.2 Zubehr und Ersatzteile @ 0\mod_1177402058734_79.doc @ 1102 8.2. Pos: 191 /TD/Tipps und Hilfe/Zubehr und Ersatzteile/testo Saveris @ 0\mod_1188805346875_79.doc @ 3193 8 Tips and assistance computer, the Saveris base can be reconnected with the computer and should then be automatically recognized. 12. How can I change the language for the user guidance at the Saveris base?

Disconnect the mains plug of the Saveris base and wait about one minute. After connecting the mains plug, the base shows the language selection. Select the new language and press [Enter] at the Saveris base. The base starts up with the new language setting. 13. After commissioning a probe the reading is outside of the limit values, but no alarm was triggered by the Saveris base. The readings that are recorded from the probe must have already been within the limit values for a breach of the limit values to be recognized by the Saveris base. Accessories and spare parts Description Spare batteries for radio probes

(4 x AA alkali manganese mignon batteries) Spare batteries for radio probes for operation below -10 C

(Energyzer L91 Photo lithium) Mains unit 100 to 200 V DC; for Saveris base, router, converter, Ethernet probe Mains unit (top-hat rail mounting) 90 to 240 VAC/24 VDC (2.5 A) Mains unit (desktop instrument) 90 to 240 VAC/24 VDC (350 mA) Antenna with magnetic base with 3 m cable for base with GSM module Quad-band antenna Alarm module (optical & acoustic), can be connected to alarm relay, 700 x 164 mm, 24 V AC/DC/320 mA, steady on: red, steady tone: buzzer approx. 2.4 kHz Article no. 0515 0414 0515 0572 0554 1096 0554 1749 0554 1745 0554 0524 0554 0525 0629 6666 0970 4020 en 01 159 8 Tips and assistance Description testo Saveris SBE software, incl. USB cable for connection of the Saveris base to the computer testo Saveris PROF software, incl. USB cable for connection of the Saveris base to the computer Saveris adjustment software Measurement data view via Internet ISO temperature calibration certificate;

temperature data logger;

calibration points -18 C, 0 C, +60 C;

per channel/instrument DKD temperature calibration certificate;

temperature data logger;

calibration points -20 C, 0 C, +60 C;

per channel/instrument ISO humidity calibration certificate;

humidity data logger;

calibration points 11.3 % RH and 75.3 %

RH at +25 C; per channel/instrument DKD humidity calibration certificate;

humidity data logger;

calibration points 11.3 % RH and 75.3 %

RH at +25 C; per channel/instrument Article no. 0572 0180 0572 0181 0572 0183 on request 0520 0151 0520 0261 0520 0076 0520 0246

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