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Users Manual I | Users Manual | 2.19 MiB | October 10 2017 | |||
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Users Manual II | Users Manual | 2.75 MiB | October 10 2017 | |||
1 | Cover Letter(s) | October 10 2017 | ||||||
1 | Cover Letter(s) | October 10 2017 | ||||||
1 | External Photos | October 10 2017 | ||||||
1 | Internal Photos | October 10 2017 | ||||||
1 | Attestation Statements | October 10 2017 | ||||||
1 | Cover Letter(s) | October 10 2017 | ||||||
1 | ID Label/Location Info | October 10 2017 | ||||||
1 | RF Exposure Info | October 10 2017 | ||||||
1 | Test Report | October 10 2017 | ||||||
1 | Test Setup Photos | October 10 2017 |
1 | Users Manual I | Users Manual | 2.19 MiB | October 10 2017 |
SZU06C1 Product Manual SZU06C1 ZIGBEE WIRELESS COMMUNICATION MODULE Product Manual SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual Table of Contents Table of Contents....................................................................................................................................................... 1 1 General.................................................................................................................................................................... 1 1.1 Module introduction..................................................................................................................................... 1 1.2 Hardware description...................................................................................................................................1 2 Approvals.................................................................................................................................................................2 2.1 CE Approvals(ETSI).....................................................................................................................................2 2.2 FCC Approvals..............................................................................................................................................3 2.3 ATEX Approvals............................................................................................................................................5 3 Module Pinout.......................................................................................................................................................7 4 Hardware Description.........................................................................................................................................9 4.1 Hardware Diagram.....................................................................................................................................9 4.2 Interface characteristics........................................................................................................................ 10 5 Absolute Maximum Ratings................................................................................................................................11 5.1 Environmental characteristics.................................................................................................................. 11 5.2 Recommended operating conditions......................................................................................................12 6 DC Electrical Characteristics..........................................................................................................................12 7 Digital IO Specifications...................................................................................................................................13 8 AC Electrical Characteristics..........................................................................................................................14 9 Physical Dimensions and Footprint............................................................................................................. 16 9.1 Physical Dimensions.............................................................................................................................. 16 9.2 Recommended Footprint.......................................................................................................................17 10 Soldering Temperature Time Profile (for reflow soldering)................................................................. 18 10.1 Recommended temperature time profile for lead-free solder...................................................18 11 Reliability Test.....................................................................................................................................................19 12 Application Precautions.................................................................................................................................20 12.1 Safety precautions.................................................................................................................................20 12.2 Engineering design and using precautions...................................................................................20 12.3 Storage conditions................................................................................................................................ 21 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual 13 Packaging...........................................................................................................................................................22 13.1 Carrier tape..............................................................................................................................................22 13.2 Reel............................................................................................................................................................ 23 14 Ordering Information..........................................................................................................................................24 15 Drawing of Product Label..............................................................................................................................25 16 Disclaimer............................................................................................................................................................26 17 RoHS Declaration.............................................................................................................................................. 26 18 Data Sheet Status..............................................................................................................................................26 19 Reference Documents.......................................................................................................................................27 20 Contact Information............................................................................................................................................27 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual Module features Mini 33-pin stamp-like SMT package U.FL interface for external SMA antenna Small form factor: 19 mm x 25 mm x 3.7 mm Compliant with EU CE certification Compliant with US FCC certification Compliant with EU RoHS certification Compliant with EU ATEX certification Based on ARM Cortex-M4 architecture 256K FLASH and 32K RAM Multiple sleep modes Operating voltage range: 2.1V to 3.9V Can act as End Device, Router or Coordinator Providing 8 GPIO lines Providing UART serial communication interface Firmware upgrade via serial port Hardware Supported AES-128 encryption Storage temperature range: 40C to 125C Operating temperature range: 40C to 85C Excellent anti-interference ability Outstanding networking stability Quick network data processing capability that collection of data from all nodes can be completed in 12 seconds in a ZigBee network composed of 100 nodes Serial data transmit-receive for end device in low power mode Remotely controlling other modules in the network with commands ZigBee channel scanning and PANID scanning Analyzing topology of current network with commands Updating the network key with commands Acquiring the neighbor table, routing table, and node information with commands Switching the current network channel with commands Providing abundant module registers for users to use and providing timers, interruptions etc. to execute users built-in functions Scanning of ambient energy values to enable users to view jamming intensity of network channel signals ZigBee multicast function ZigBee binding function Providing DIYUE Terminal developed from the ZigBee PRO property set Standard JTAG or SWD programming and real-time online commissioning via IAR SZU06C1 PM(Rev 2.0) RF Features SZU06C1 Product Manual Based on the Silicon Labs EFR32MG1 chip solution 2.4 GHz ISM frequency band 250 Kbps data transmission rate over the air 16 channels (IEEE802.15.4: CH11CH26) Maximum output power: +19.5dbm Signal sensitivity: -101dBm@1% PER Sleep current: 3.0A RX current :13.7mA TX current:139mA @+19.5dBm Visible barrier-free communication distance:
2700 m@-69dBm, PER=0.5 Applications Smart power grid Smart Energy Wireless alarm Safe home Smart household Smart building Development kit Smart agriculture Wireless sensor network M2M Industrial control Lighting, ventilation control Remote monitoring Environmental monitoring and control Contain all of the platform which can quickly AT-style software interface command establish a simple Mesh network and evaluate SZU06C1 ZigBee wireless communication module performance dictionary can be modified for high volume customers. Custom software development available upon special request SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual 1 General 1.1 Module introduction SZU06C1 introduced in this document is an embedded wireless communication module based on IEEE802.15.4/ZigBee technology. The hardware has taken the EFR32MG1B232[1] chip solution of Silicon Labs and the software adopts the SZU06 AT command set self developed based on Ember Z-net_5.9.0 protocol stack released by Silicon Labs. The advanced hardware design and the simple AT command interface enables SZU06C1 ZigBee wireless communication module to be blended into the wide range of applications. Due to the strong configuration function of SZU06C1 AT command set, you can develop the products without extra MCU to save more time and cost. Besides, SZU06C1 ZigBee wireless communication module is also an ideal platform for development of ZigBee firmware apart from the use of customized firmware. You can add the strong network function into your products without radio frequency experience or expertise, which can greatly shorten the research and development period of products and further speed up the marketing of the products. 1.2 Hardware description SZU06C1 ZigBee wireless communication module is composed of the high performance and low power consumption RF chip EFR32MG1B232 from Silicon Labs, 38.4MHz system clock crystal oscillator, 32.768KHz monitoring clock oscillator and RF radio frequency front-end matching circuit which can optimize the radio frequency performance. The module provides U.FL interface for attaching external SMA interface antenna or PCB antenna. The maximum output power of RF chip is 19.5dBm, and the receive sensitivity is -101dBm typically. 1 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual Module SZU06C1 Chip EFR32MG1B232 FLAH 256KB RAM 32KB Sealing Dimension 19mm * 25mm * 3.7mm Table 1- 1 Model of SZU06C1 Module The SZU06C1 is used for ZigBee applications (www.zigbee.org). If you dont want to use the AT command interface we provided and expect to develop your own software, you need to download the official Simplicity Studio V4 development tool and Ember Z-net_5.9.0 or later protocol stack of Silicon Labs. 2 Approvals 2.1CE Approvals(ETSI) SZU06C1 ZigBee wireless communication module is certified CE by the following standards:
EMC Draft ETSI EN 301 489-1 V2.2.0:2017 Draft ETSI EN 301 489-17 V3.2.0:2017 Radio EN 300 328 V2.1.1:2016 EN 62479:2010 Safety EN 60950-1:2006/A11:2009/A1:2010/A12:2011/A2:2013 The information of antennae for tests is shown in the following table:
Type Antenna Product W1010 Manufacturer Pulse Electronics wavelength Impedan Gain 1/4, dipole 50 2.0dBi Table 2- 1 Approved Antennae When SZU06C1 ZigBee wireless communication module is embedded into an OEM product, it is prohibited to declare that his OEM products comply with CE certification in the name of approved CE certification of our company. If the OEM manufacturer wants to declare that his final products comply with CE certification, it must be ensured that the final products shall comply with the European EMC, Radio and Safety standards. Otherwise, ChengDu DiYue Technology Co., Ltd. has the right to investigate and affix the responsibility for it. 2 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual The "CE" marking must be placed in a prominent position of OEM products. Please refer to http://ec.europa.eu/enterprise/faq/ce-mark.htm for more information about CE certification mark. Important tips:
In Europe, frequency band of 2.4GHz is used only for the equipment with the maximum equivalent isotropically radiated power (e.i.r.p.) of less than 10mW(10dBm). In case that e.i.r.p. of the equipment is more than 10mW, the Manufacturer or Authorized Agent must notify the competent authorities of the spectrum management of the relevant member state prior to four weeks that the products are put on the market. Besides, the equipment must be marked with warning symbol to draw the user's attention to the fact that it might not be legal to use the equipment in every member state. For this reason, we recommend that the European customers limit the output power to 10mW
(10dBm) to avoid having to deal with the local authorities for spectrum management of each relevant member state. 2.2FCC Approvals The SUZ06C1 ZigBee wireless communication module including the antenna listed is Table 2-1 have been tested to comply with Part 15 of the FCC rules. FCC caution:
This device complies with Part 15 of the FCC rules. Operation is subject to the following 3 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Note:
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. Please take attention that changes or modification not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. FCC RF EXPOSURE STATEMENT:
The device has been evaluated to meet general RF exposure requirement, The device can be used in portable exposure condition without restriction. WARNING: To satisfy FCC RF exposure requirements for mobile transmitting devices, a separation distance of 20cm or more should be maintained between the antenna of this device and persons during operation. To ensure compliance, operations at closer distances than this are not recommended. 4 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual 2.3ATEX Approvals The SZU06C1 ZigBee wireless communication module has been tested to comply with the ATEX 2014/34/EU regulation about explosion proof products. Intended Use:Zone 2 GAS. This device meets the following parameters:
U =3.9V, I =1A, P=0.98W, C =15.32F, L =5.64H, -40 i i i i i T S 80 . And it complies with the following standard:
EN 60079-0:2012+A11:2013 EN 60079-11:2012 Ex marking:
Certificate number:
When installing the SZU06C1 module into your own product and requiring explosion protection, please make sure that your product must meet the above explosion-proof parameters and indicate "Transceiver Module II 3G Ex ic IIC Gc" or similar words outside the final product. Name And Address Of Notified Body:
TV SD Product Service GmbH Zertifizierstellen Ridlerstrae 65 80339 MNCHEN GERMANY Number Of Notified Body:
0123 Special conditions for safe use:
1. The sign U placed after the certificate number indicates that the certificate must not be mistaken with a certificate intended for an equipment or protective system. This partial certification may be used as a basis for certification of equipment or protective system. 5 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual 2. The maximum input parameters stated above shall be considered during installation. The rules for interconnection of intrinsically safety circuits according EN 60079-11 and EN 60079-14 have to be taken into account. 3. The maximum service temperature of the communication module when incorporated into apparatus is -40C to +80C. When utilized at this service temperature, a T4 temperature classification is suitable. 4. The communication module shall be installed in an enclosure that provides a minimum ingress protection of IP20. 6 SZU06C1 PM(Rev 2.0) 3 Module Pinout SZU06C1 Product Manual Fig. 3- 1 SZU06C1 Pinout (top view) In order to facilitate the user to develop and design the products based on SZU06C1 ZigBee wireless communication module, we have detailed the pin information of SZU06C1 ZigBee wireless communication module in the following Table 3-1. All GND pins are directly connected with the module; but for best RF performance, each GND pin shall be connected to a complete ground externally . Pin No. Pin Name Chip Pin IO Characteristic Function Description 1 2 3 4 5 6 7 8 9 10 11 GND GND NC NC D0 D1 D2
-
-
PD13 PD14 PD15 RESETn RESETn NC NC NC NC
-
-
-
-
-
-
-
RW RW RW
-
-
-
-
-
System GND. Float directly. Float directly. General GPIO General GPIO General GPIO System Reset,see note 1 Float directly. Float directly. Float directly. Float directly. 7 SZU06C1 PM(Rev 2.0) 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 NC GND PTI.SYNC PTI.DATA PTI.CLK TXD RXD GND GND TCK_SWCLK TDO_SWO TDI TMS_SWDIO NC NC D3 D4 NC NC GND VCC GND
-
GND PB13 PB12 PB11 PA0 PA1 GND GND PF0 PF2 PF3 PF1
-
-
PC0 PC1
-
-
GND VCC GND SZU06C1 Product Manual Float directly. System GND. General GPIO General GPIO General GPIO Transmitted Data Received Data System GND. System GND. Test Clock signal Test Data Out Test Data In Test Mode signal Float directly. Float directly. General GPIO General GPIO Float directly. Float directly. System GND. System Power Supply,see note 2 System GND.
-
-
R/RW R/RW R/RW R/RW R/RW
-
-
-
-
-
-
-
-
R/RW R/RW
-
-
-
Table 3- 1 Description of SZU06C1 Pinout Notes:
Low level is adopted for system reset. In case of nRESET=0, the module is staying in reset state, and the low level time should be longer than 20s. System power supply range:2.1V-3.9V. 8 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual 4 Hardware Description 4.1 Hardware Diagram Fig. 4-1 Hardware Diagram of SZU06C1 SZU06C1 wireless communication module is based on EFR32MG1B2321 chip from Silicon Labs, which integrates the RF transceiver complying with 2.4-GHz IEEE 802.15.4, high performance 32-bit ARM 40MHz Cortex-M4 CPU, 256KB FLASH and 32KB RAM which can be programmed in the system and many other peripherals with strong functions. In addition, the EFR32MG1B232 has multiple sleep modes, which makes it to be more adaptable to the ultra-low power consumption system.It only takes a few milliseconds for change between different power modes that further ensures the low power consumption of the equipment. SZU06C1 wireless communication module provides 8-lines GPIO, one UART communication interface, two debug interfaceone is 2-wire SWD and the other is 4-wire JTAG). And you can develop your custom software easily with them. In addition to this a number of MAC functions are also implemented in hardware to help maintain the strict timing requirements imposed by the ZigBee and IEEE802.15.4 standards. 9 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual 4.2 Interface characteristics Parameter UART Baud Rate Analog channel resolution Analog input impedance Analog input voltage GPIO output voltage Real-time clock frequency Test conditions Minimum value Typical values Maximum value Half-duplex 9600 6 2.1
-0.3 115200 12 3.9 3.9 20 3.3 32.768 Unit bps bit k V V kHz Table 4-1 SZU06C1 Interface Characteristics SZU06C1 ZigBee wireless communication module provides a U.FL interface for attaching one external SMA antenna or a PCB antenna. In order to obtain the modules optimal RF performance, it is recommend to use the antenna and feeder provided by our company. 10 SZU06C1 PM(Rev 2.0) 5 Absolute Maximum Ratings SZU06C1 Product Manual Parameter Supply voltage Supply current Pin voltage RF input level Output power Storage temperature range Operating temperature range Reflow temperature Notes:
-
V 3.9 3.9
-0.3
-0.3 1000 mA Symbol Min value Max value Unit DDV IVDD PINV maxP outP stgT opT deathT 125 245 19.5
-26
-40
-40 10 85 V
-
dBm dBm Note Lead-free soldering Table 5-1 Limit Parameter The limit values given in Table 6-1 shall not be exceeded under any condition and exceeding any one of the limit values may cause permanent damage to the device. 5.1 Environmental characteristics Parameter ESD1 Symbol Absolute maximum V THHBM ratings 2 ESD2 Humidity level V THCDM MSL 500 MSL3 Note Description of human-body mode circuit Description of charged device model Unit KV V
-
Table 5-2 Environmental Parameters Notes:
Caution! ESD sensitive device. Precautions should be used when handling the device in order to prevent permanent damage. 11 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual 5.2 Recommended operating conditions Parameter Supply voltage RF input power RF frequency Operating temperature Relative humidity Min value Typical value Max value Unit Environment 2.1
-
2405
-40
-
3.3
-
25
-
3.9 10 2480 85 95 V dbm MHz
-
%
Table 5-3 Recommended Operating Conditions 6 DC Electrical Characteristics V DD 3.3V,T OP 25 Cf 2400MHz 2483.5MHz. Parameter Test condition Symbol Supply Voltage Supply Current Reset FLASH RX Current TX Current Sleep Current Hard reset FLSH erase Flash data retention Page erase Write operation Receive enable TX power = 0dBm TX power = 3dBm TX power = 8dBm TX power = 16.5dBm TX power = 19.5dBm Enter EM2 mode Enter EM3 mode V D D IVDD I reset t reset C erase t r e te n tio n t erase I r e a d I w rite I R X ITX Isleep 12 Value Type 3.3V Max. 3.9V
-
1000mA 2.1mA 1ms
-
-
3mA
-
-
Min. 2.1V
-
10000 10years 20ms 40ms 3mA 3mA
-
-
-
-
-
-
-
-
-
-
-
-
-
-
SZU06C1 PM(Rev 2.0) 13.7mA 17mA 23.7mA 35.5mA 88.4mA 139mA 3.0A 1.7A 19mA 24mA 37mA 90mA 142mA 3.2A Wake up time Enter EM4 mode From EM1 to wake From EM2 to wake From EM3 to wake From EM4H to wake From EM4S to wake t em t e m 1 w u 2 w u t e m 3 w u t t em h w u 4 em s w u 4 SZU06C1 Product Manual
-
-
-
-
-
-
0.5A 3s 3s 3s 20s 290s
-
-
-
-
-
-
Table 6-1 DC Electrical Characteristics of SZU06C1 7 Digital IO Specifications V DD 3.3V,T OP
. 25 Parameter Test conditions Logic0 input voltage Logic1 input voltage Logic0 input current Logic1 input current I/O-pin pullup resistors I/O-pin pulldown resistors Input voltage 0V Output voltage DDV Logic0 output voltage, 3mA Output load current: 4mA Logic0 output voltage, 20mA Output load current: 4mA Logic1 output voltage, 3mA Output load current: 20mA Logic1 output voltage, 20mA Output load current: 20mA Sym bol ILV IHV ILI IHI PUR PDR 3OLV 20OLV 3OHV 20OHV Parameter value Min. Typ. Max. 0.3*VDD 0.7*VDD
-
-
0.1nA 30nA 0.1nA 50nA 30k 43k 65k 30k 43k 65k 0.2*VDD 0.2*VDD 0.8*VDD 0.8*VDD Table 7-1 Digital IO Specification of SZU06C1 13 SZU06C1 PM(Rev 2.0) 8 AC Electrical Characteristics SZU06C1 Product Manual V =3.3V,T =25 ,SZU06A1 connected a SMA aten na with 50 load DD OP
. Test conditions Min Typ. Max Unit No Parameter 1 Frequency range Channel number Input impedance 2400 CH11 See Table 10.2 for the correspondence between channel and frequency 2 3 4 5 6 7 8 9 Receiver sensitivity PER=1%
Input level Input voltage PER=1%
High-side adjacent channel rejection, 1% PER. Desired is reference signal at 3dB above reference sensitivity level Low-side adjacent channel rejection, 1% PER. Desired is reference signal at 3dB above reference sensitivity level Alternate channel rejection, 1% PER. Desired is reference signal at 3dB above reference sensitivity level Co-channel interferer rejection, 1% PER Interferer is reference signal at +1 channel-spacing. Interferer is filtered reference signal at +1 channel-spacing. Interferer is reference signal at -1 channel-spacing. Interferer is filtered reference signal at -1 channel-spacing. Interferer is reference signal at 2 channel-spacing. Interferer is filtered reference signal at 2 channel-spacing. Desired signal 10 dB above sensitivity limit 2500 MHz CH26 53
-99 10
-
-
-
-
-
-
-
-
dBm dB dB dB dB dB dB dB dB dB 47
-102 50
-101
-
-
-
-
-
-
-
-
33.75 52.5 35 54.7 45.9 56.8
-2.6 0.25 10 RSSI Resolution 14 SZU06C1 PM(Rev 2.0) 11 12 13 14 15 16 RSSI accuracy in the linear region as defined by 802.15.4-2003 Frequency Tolerance for the crystal Occupied channel bandwidth per ETSI EN300.328 Error vector magnitude(EVM) SZU06C1 Product Manual
-
1
-
dB 38.4 MHz, ESR = 50 , CL = 10pF
-40
+40 ppm 99% BW at highest and lowest channels in band Output power at lowest power setting:19.5dBm
-
-
2.25 5.5%
-
-
MHz
%rms Actual maximum output power Output power at lowest power setting:19.5dBm Actual minimum output power Output power at lowest power setting:-26dBm 18 19 19.5 dBm
-28
-27
-26 dBm Table 8-1 RF Characteristics of SZU06C1 RF Transceiver Notes:
Reference sensitivity level is -85 dBm. Filter is characterized as a symmetric band-pass centered on the adjacent channel having a 3dB bandwidth of 4.6 MHz and stop-band rejection better than 26 dB beyond 3.15 MHz from the adjacent carrier. Frequency(center) Channel CH11 CH12 CH13 CH14 CH15 CH16 CH17 CH18 Totally 16 channels, frequency coverage: 2400MHz--2483MHz 2,405MHz 2,410MHz 2,415MHz 2,420MHz 2,425MHz 2,430MHz 2,435MHz 2,440MHz Channel CH19 CH20 CH21 CH22 CH23 CH24 CH25 CH26 Frequency (center) 2,445MHz 2,450MHz 2,455MHz 2,460MHz 2,465MHz 2,470MHz 2,475MHz 2,480MHz Table 8-2 Channel VS. Frequency of SZU06C1 15 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual 9 Physical Dimensions and Footprint 9.1 Physical Dimensions Fig. 9-1 Physical Dimensions of SZU06C1 Parameter W L1 A1 A2 A3 A4 Parameter Description Module width Module length Distance between semi-holes Distance from semi-hole to PCB Distance from U.FL center to PCB edge Distance from U.FL center to PCB edge Parameter value 19mm 25mm 1.27mm 0.8mm 3mm 5.55mm Table 9-1 Physical Dimensions of SZU06C1 16 SZU06C1 PM(Rev 2.0) 9.2 Recommended Footprint SZU06C1 Product Manual Fig. 9-2 Recommended Footprint of SZU06C1 Notes:
1. When the surface mounted SZU06C1 ZigBee wireless communication module is used, it is suggested that the bonding pad shall be 1mm wide and 1.2mm high. 2. L=25mm. 3. You must ensure that the corresponding PCB of keep-out area part in Fig. 3- 1shall have no any device, running line or applied copper. 4. You must also ensure that there is no exposed copper on your layout which may contact with the underside of the module. 5. To get the best RF performance, it is recommended that each GND pin shall be connected to a complete ground level. 6. It is recommended to use multiple vias between each ground pad and a solid ground plane to minimize inductivity in the ground path. 17 SZU06C1 PM(Rev 2.0) 10 Soldering Temperature Time Profile (for reflow SZU06C1 Product Manual soldering) 10.1 Recommended temperature time profile for lead-free solder Fig. 10-1 SZU06C1 Temperature Profile for Lead-free Solder Notes:
Preheat: The recommended temperature climbing speed shall be 2/s and not exceed 2.5/s at the preheat area. Cooling: The recommended temperature descent speed shall be 3/s and not exceed 4/s at the cooling area. Maximum Reflow Cycles of the module: twice The module must not be placed at the bottom of PCB board for reflow soldering (if the module is placed at the bottom of PCB board for reflow soldering, device inside the module will drop off due to gravity). 18 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual 11 Reliability Test To guarantee the environment adaptability of SZU06C1, we have done the the following measurements. No Test items 1 2 3 4 5 6 7 Vibration test Shock test Heat cycle test Moisture test Low temperature cold start test Low temperature test High temperature test Test methods Setting the vibration frequency of 50Hz, amplitude of 1.5mm, and each side of XYZ vibrates for 20 minutes respectively The module is dropped from the height of 50cm to hard floor to carry out the test for 3 times Charged operation of module: start temperature of cycle:
25-->-40 (30 minutes) -->85 (30 minutes), for 5 cycles between high and low temperature Module operates at the environment of + 60 and 90% RH for 24 hours Module will be powered after placed in the environment of
-40 for 1 hour Operating in the environment of -40 for 3 * 24 hours Operating in the environment of +85 for 3 * 24 hours Table 11-1 Reliability Test of SZU06C1 19 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual 12 Application Precautions 12.1 Safety precautions Before use of SZU06C1, check and evaluate their operation when mounted on your products . These products may short-circuit. If electrical shocks, smoke, fire, and/or accidents involving human life are anticipated when a short circuit occurs, then provide the following failsafe functions as a minimum :
(1) One protective circuit shall be designed or the protective device shall be installed to ensure the system safety
(2) One redundant circuit or one system shall be designed to prevent the safety loopholes due to single malfunction so as to ensure the system safety. 12.2 Engineering design and using precautions 1Excess temperature during use of the products is the major factor of shortening the life of the products. Thus, full consideration of the impacts of heat radiation shall be taken in the design or use of the products to ensure that the environment temperature of the products shall not exceed the maximum operable temperature. 2Otherwise, it may cause the reduction of the product performance and damage the products. 3If impulse or other transient load will be loaded to your products, the operation of SZU06C1 module must be inspected before installation and the potential impacts on the products shall be evaluated. 4When the products are used under the following special environment, the product manual shall be carefully read and the using of performance and reliability of SZU06C1 must be evaluated;
Liquid environment. Such as water, saline water, paint, alkali, organic solvent or other possible sprinkle liquid 20 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual The environment of direct sunshine, outdoor or dusty environment Environment easy to condensation Environment with high concentration and harmful gases (such as air with salt, muriatic acid, chlorine, sulfur dioxide, sulfuretted hydrogen, ammonia gas or nitrogen oxide) 5Mechanical stress shall be avoided in assembly or operation of SZU06C1. 6Do not press the shielding cover or tighten the objects to the shielding cover 7When the SZU06C1 is working, the safe distance between it and human body must be greater than 20 centimeters. 12.3 Storage conditions
(1) SZU06C1 must not be stressed mechanically during storage
(2) Performance characteristics of the module shall not be evaluated under the following environment and the storage under this environment may have a large impact on the performance of SZU06C1 (such as RF performance). Salty air or environment with high concentration corrosive gases (such as Cl2,H2S,NH3,SO2,OR NOx ) Storage in direct sunshine Storage in an environment where air humidity exceeds 85%
(3) After the above-mentioned conditions are satisfied, the storage time of the module during assembly of final products shall not exceed two years. 21 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual 13 Packaging 13.1 Carrier tape Fig. 13-1 Dimension of Carrier Tape (Top View) Fig. 13-2 Diagram of Cover Tape Fig. 13-3 Diagram of Empty pocket 22 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual Fig. 13-4 Orientation of SZU06C1 13.2 Reel Fig. 13-5 Reel Dimensions Each reel will be packed in a electrostatic shielding bag 23 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual 14 Ordering Information Product code Brief description SZU06C1 Based on EFR32MG1single chip solution U.FL interface(for connecting a SMA or PCB antenna) 19mm * 25mm * 3.7mm Visible barrier-free communication distance is 2700m @-69dBm SZU06DVK Development Kit Development kit contains 2 X SZURF-EVB Development Boards 2 X SZU06A1 on Carrier-Board 2 X SZU06A2 on Carrier-Board 2 X SZU06C1 on Carrier-Board 2 X SZU06C2 on Carrier-Board 2 X Pulse 2.0dbi antenna 2 X RF feeder 2 X molex Micro-USB-to-USB-A data cable DIYUE Terminal and user manual SZU06 Development Kit User Manual SZU06 series module firmware 24 SZU06C1 PM(Rev 2.0) 15 Drawing of Product Label SZU06C1 Product Manual Fig. 15-1 SZU06C1 Product Label The label dimensions are 15.2mm*17mm and the label will withstand temperatures used during reflow soldering. Mark SZU06C1 CE 2D-Barcode FCC ID 170631 Detailed Description Module model CE mark 2D-Barcode shall include four parts: product batch, hardware reversion,module model and product serial number FCC ID mark and number 1706:Product batch;31:product code 753159963258 Product serial number Ex mark TPS 17 ATEX 93558 006 U ATEX Certificate number Table 15-1 SZU06C1 Label details 25 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual 16 Disclaimer We reserve the right to modify or improve the product, company name and LOGO at any time without prior notice. In addition, Chengdu Diyue Technology Co., Ltd. does not convey any license under its patent rights or assume any responsibility for the use of the described product. 17 RoHS Declaration Statement of compliance of SZU06C1 ZigBee wireless communication module to EU environmental protection:
Hereby we declare to our best present knowledge based on the declaration of our suppliers that SZU06C1 does not contain the following substances which are banned by Directive 2011/65/EU (RoHS) or if they do, contain a maximum concentration of 0,1% by weight in homogeneous materials for:
Lead and lead compounds Mercury and mercury compounds Hexavalent Chromium PBB (polybrominated biphenyl) category PBDE (polybrominated biphenyl ether ) category And a maximum concentration of 0.01% by weight in homogeneous materials for:
Cadmium and cadmium compounds 18 Data Sheet Status In order to improve design performance and supply the best possible products to customers, Chengdu Diyue Technology Co., Ltd. reserves the right to change the product specifications without notice. Please download the latest product specifications provided by our company before initiating or completing one design. 26 SZU06C1 PM(Rev 2.0) SZU06C1 Product Manual 19 Reference Documents
[1] Data sheet EFR32MG1.Silicon Labs. (www.silabs.com-EFR32MG1) 20 Contact Information Website: www.cdiyue.com Add.: 4/F, Block A, Gaofa Building, No.6, Jiuxing Avenue, High-tech Zone, Chengdu Tel: 0086-28-85138368 Fax: 0086-28-85189190 E-mailpublic@cdiyue.com Sales In China Tel: 0086-28-85106132 Fax: 0086-28-85189190 E-mailsales@cdiyue.com International sales Tel: 0086-28-85327536 Fax: 0086-28-85189190 E-mailwsales@cdiyue.com 27 SZU06C1 PM(Rev 2.0)
1 | Users Manual II | Users Manual | 2.75 MiB | October 10 2017 |
SZU06C2 Product Manual SZU06C2 ZIGBEE WIRELESS COMMUNICATION MODULE Product Manual SZU06C2 Product Manual Table of Contents Table of Contents....................................................................................................................................................... 1 1 General.................................................................................................................................................................... 1 1.1 Module introduction....................................................................................................................................... 1 1.2 Hardware description......................................................................................................................................1 2 Approvals.................................................................................................................................................................2 2.1 CE Approvals (ETSI).................................................................................................................................... 2 2.2 FCC Approvals..............................................................................................................................................3 2.3 ATEX Approvals............................................................................................................................................5 3 Module Pinout.......................................................................................................................................................7 4 Hardware Description............................................................................................................................................9 4.1 Hardware Diagram.......................................................................................................................................9 4.2 Interface characteristics.............................................................................................................................10 5 Absolute Maximum Ratings................................................................................................................................11 5.1 Environmental characteristics.......................................................................................................................11 5.2 Recommended operating conditions............................................................................................................ 12 6 DC Electrical Characteristics..........................................................................................................................12 7 Digital IO Specifications...................................................................................................................................13 8 AC Electrical Characteristics..........................................................................................................................14 9 Physical Dimensions and Footprint............................................................................................................. 16 9.1 Physical Dimensions................................................................................................................................... 16 9.2 Recommended Footprint............................................................................................................................17 10 Soldering Temperature Time Profile (for reflow soldering)................................................................. 18 10.1 Recommended temperature time profile for lead-free solder..............................................................18 11 Reliability Test.....................................................................................................................................................19 12 Application Precautions.................................................................................................................................20 12.1 Safety precautions.....................................................................................................................................20 12.2 Engineering design and using precautions.............................................................................................20 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual 12.3 Storage conditions.....................................................................................................................................21 13 Packaging...........................................................................................................................................................22 13.1 Carrier tape............................................................................................................................................... 22 13.2 Reel............................................................................................................................................................. 23 14 Ordering Information..........................................................................................................................................24 15 Drawing of Product Label..............................................................................................................................25 16 Disclaimer............................................................................................................................................................26 17 RoHS Declaration.............................................................................................................................................. 26 18 Data Sheet Status..............................................................................................................................................26 19 Reference Documents.......................................................................................................................................27 20 Contact Information............................................................................................................................................27 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual Module features Mini 33-pin stamp-like SMT package Provide on-board snake antenna Small form factor: 19 mm x 25 mm x 3.7 mm Compliant with EU CE certification Compliant with EU RoHS certification Compliant with EU ATEX certification Based on ARM Cortex-M4 architecture 256K FLASH and 32K RAM Multiple sleep modes Operating voltage range: 2.1V to 3.9V Can act as End Device, Router or Coordinator Provide 8 GPIO lines Provide UART serial communication interface Firmware upgrade via serial port Hardware Supported AES-128 encryption Storage temperature range: 40C to 125C Operating temperature range: 40C to 85C Excellent anti-interference ability Outstanding networking stability Quick network data processing capability that collection of data from all nodes can be completed in 12 seconds in a ZigBee network composed of 100 nodes Serial data transmit-receive for end device in low power mode Remotely controlling other modules in the network with commands ZigBee channel scanning and PANID scanning Analyzing topology of current network with commands Updating the network key with commands Acquiring the neighbor table, routing table, and node information with commands Switching the current network channel with commands Providing abundant module registers for users to use and providing timers, interruptions etc. to execute users built-in functions Scanning of ambient energy values to enable users to view jamming intensity of network channel signals ZigBee multicast function ZigBee binding function Providing DIYUE Terminal developed from the ZigBee PRO property set Standard JTAG or SWD programming and real-time online commissioning via IAR SZU06C2 PM(Rev 2.0) RF Features SZU06C2 Product Manual Based on the Silicon Labs EFR32MG1 chip solution 2.4 GHz ISM frequency band 250 Kbps data transmission rate over the air 16 channels (IEEE802.15.4: CH11CH26) Maximum output power: +19.5dbm Signal sensitivity: -101dBm@1% PER Sleep current: 3.0A RX current :13.7mA TX current: 139mA @+19.5dBm Visible barrier-free communication distance:
1300 m@-69dBm, PER=0.5 Applications Smart power grid Smart Energy Wireless alarm Safe home Smart household Smart building Development kit Smart agriculture Wireless sensor network M2M Industrial control Lighting, ventilation control Remote monitoring Environmental monitoring and control Contain all of the platform which can quickly AT-style software interface command establish a simple Mesh network and evaluate SZU06C2 ZigBee wireless communication module performance dictionary can be modified for high volume customers. Custom software development available upon special request SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual 1 General 1.1 Module introduction SZU06C2 introduced in this document is an embedded wireless communication module based on IEEE802.15.4/ZigBee technology. The hardware has taken the EFR32MG1B232[1] chip solution of Silicon Labs and the software adopts the SZU06 AT command set self developed based on Ember Z-net_5.9.0 protocol stack released by Silicon Labs. The advanced hardware design and the simple AT command interface enables SZU06C2 ZigBee wireless communication module to be blended into the wide range of applications. Due to the strong configuration function of SZU06C2 AT command set, you can develop the products without extra MCU to save more time and cost. Besides, SZU06C2 ZigBee wireless communication module is also an ideal platform for development of ZigBee firmware apart from the use of customized firmware. You can add the strong network function into your products without radio frequency experience or expertise, which can greatly shorten the research and development period of products and further speed up the marketing of the products. 1.2 Hardware description SZU06C2 ZigBee wireless communication module is composed of the high performance and low power consumption RF chip EFR32MG1B232 from Silicon Labs, 38.4MHz system clock crystal oscillator, 32.768KHz monitoring clock oscillator and RF radio frequency front-end matching circuit which can optimize the radio frequency performance. The module has been integrated a snake antenna on board, so that you can integrate it into your own products easily. The maximum output power of RF chip is 19.5dBm, and the receive sensitivity is -101dBm typically. 1 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual Module SZU06C2 Chip EFR32MG1B232 FLAH 256KB RAM 32KB Sealing Dimension 19mm * 25mm * 3.7mm Table 1- 1 Model of SZU06C2 Module The SZU06C2 is used for ZigBee applications (www.zigbee.org). If you dont want to use the AT command interface we provided and expect to develop your own software, you need to download the official Simplicity Studio V4 development tool and Ember Z-net_5.9.0 or later protocol stack of Silicon Labs. 2 Approvals 2.1CE Approvals (ETSI) SZU06C2 ZigBee wireless communication module is certified CE by the following standards:
EMC Draft ETSI EN 301 489-1 V2.2.0:2017 Draft ETSI EN 301 489-17 V3.2.0:2017 Radio EN 300 328 V2.1.1:2016 EN 62479:2010 Safety EN 60950-1:2006/A11:2009/A1:2010/A12:2011/A2:2013 When SZU06C2 ZigBee wireless communication module is embedded into an OEM product, it is prohibited to declare that his OEM products comply with CE certification in the name of approved CE certification of our company. If the OEM manufacturer wants to declare that his final products comply with CE certification, it must be ensured that the final products shall comply with the European EMC, Radio and Safety standards. Otherwise, ChengDu DiYue Technology Co., Ltd. has the right to investigate and affix the responsibility for it. 2 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual The "CE" marking must be placed in a prominent position of OEM products. Please refer to http://ec.europa.eu/enterprise/faq/ce-mark.htm for more information about CE certification mark. Important tips:
In Europe, frequency band of 2.4GHz is used only for the equipment with the maximum equivalent isotropically radiated power (e.i.r.p.) of less than 10mW(10dBm). In case that e.i.r.p. of the equipment is more than 10mW, the Manufacturer or Authorized Agent must notify the competent authorities of the spectrum management of the relevant member state prior to four weeks that the products are put on the market. Besides, the equipment must be marked with warning symbol to draw the user's attention to the fact that it might not be legal to use the equipment in every member state. For this reason, we recommend that the European customers limit the output power to 10mW
(10dBm) to avoid having to deal with the local authorities for spectrum management of each relevant member state. 2.2FCC Approvals The SUZ06C2 ZigBee wireless communication module has been tested to comply with Part 15 of the FCC rules. FCC caution:
This device complies with Part 15 of the FCC rules. Operation is subject to the following 3 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Note:
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. Please take attention that changes or modification not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. FCC RF EXPOSURE STATEMENT:
The device has been evaluated to meet general RF exposure requirement, The device can be used in portable exposure condition without restriction. WARNING: To satisfy FCC RF exposure requirements for mobile transmitting devices, a separation distance of 20cm or more should be maintained between the antenna of this device and persons during operation. To ensure compliance, operations at closer distances than this are not recommended. 4 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual 2.3ATEX Approvals The SZU06C2 ZigBee wireless communication module has been tested to comply with the ATEX 2014/34/EU regulation about explosion proof products. Intended Use:Zone 2 GAS. This device meets the following parameters:
U =3.9V, I =1A, P=0.98W, C =15.32F, L =5.64H, -40 i i i i i T s 80 . And it complies with the following standard:
EN 60079-0:2012+A11:2013 EN 60079-11:2012 Ex marking:
Certificate number:
When installing the SZU06C2 module into your own product and requiring explosion protection, please make sure that your product must meet the above explosion-proof parameters and indicate "Transceiver Module II 3G Ex ic IIC Gc" or similar words outside the final product. Name And Address Of Notified Body:
TV SD Product Service GmbH Zertifizierstellen Ridlerstrae 65 80339 MNCHEN GERMANY Number Of Notified Body:
0123 Special conditions for safe use:
1. The sign U placed after the certificate number indicates that the certificate must not be mistaken with a certificate intended for an equipment or protective system. This 5 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual partial certification may be used as a basis for certification of equipment or protective system. 2. The maximum input parameters stated above shall be considered during installation. The rules for interconnection of intrinsically safety circuits according EN 60079-11 and EN 60079-14 have to be taken into account. 3. The maximum service temperature of the communication module when incorporated into apparatus is -40C to +80C. When utilized at this service temperature, a T4 temperature classification is suitable. 4. The communication module shall be installed in an enclosure that provides a minimum ingress protection of IP20. 6 SZU06C2 PM(Rev 2.0) 3 Module Pinout SZU06C2 Product Manual Fig. 3- 1 SZU06C2 Pinout (top view) In order to facilitate the user to develop and design the products based on SZU06C2 ZigBee wireless communication module, we have detailed the pin information of SZU06C2 ZigBee wireless communication module in the following Table 3-1. All GND pins are directly connected with the module; but for best RF performance, each GND pin shall be connected to a complete ground externally . Pin No. Pin Name Chip Pin IO Characteristic Function Description 1 2 3 4 5 6 7 8 9 10 11 GND GND NC NC D0 D1 D2
-
-
PD13 PD14 PD15 RESETn RESETn NC NC NC NC
-
-
-
-
-
-
-
RW RW RW
-
-
-
-
-
System GND. Float directly. Float directly. General GPIO General GPIO General GPIO System Reset,see note 1 Float directly. Float directly. Float directly. Float directly. 7 SZU06C2 PM(Rev 2.0) 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 NC GND PTI.SYNC PTI.DATA PTI.CLK TXD RXD GND GND TCK_SWCLK TDO_SWO TDI TMS_SWDIO NC NC D3 D4 NC NC GND VCC GND
-
GND PB13 PB12 PB11 PA0 PA1 GND GND PF0 PF2 PF3 PF1
-
-
PC0 PC1
-
-
GND VCC GND SZU06C2 Product Manual Float directly. System GND. General GPIO General GPIO General GPIO Transmitted Data Received Data System GND. System GND. Test Clock signal Test Data Out Test Data In Test Mode signal Float directly. Float directly. General GPIO General GPIO Float directly. Float directly. System GND. System Power Supply,see note 2 System GND.
-
-
R/RW R/RW R/RW R/RW R/RW
-
-
-
-
-
-
-
-
R/RW R/RW
-
-
-
Table 3- 1 Description of SZU06C2 Pinout Notes:
Low level is adopted for system reset. In case of nRESET=0, the module is staying in reset state, and the low level time should be longer than 20s. System power supply range:2.1V-3.9V. 8 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual 4 Hardware Description 4.1 Hardware Diagram Fig. 4-1 Hardware Diagram of SZU06C2 SZU06C2 wireless communication module is based on EFR32MG1B232 chip from Silicon Labs, which integrates the RF transceiver complying with 2.4-GHz IEEE 802.15.4, high performance 32-bit 40MHz ARM Cortex-M4 CPU, 256KB FLASH and 32KB RAM which can be programmed in the system and many other peripherals with strong functions. In addition, the EFR32MG1B232 has multiple sleep modes, which makes it to be more adaptable to the ultra-low power consumption system.It only takes a few milliseconds for change between different power modes that further ensures the low power consumption of the equipment. SZU06C2 wireless communication module provides 8-lines GPIO, one UART communication interface, two debug interfaceone is 2-wire SWD and the other is 4-wire JTAG). And you can develop your custom software easily with them. In addition to this a number of MAC functions are also implemented in hardware to help maintain the strict timing requirements imposed by the ZigBee and IEEE802.15.4 standards. 9 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual 4.2 Interface characteristics Parameter UART Baud Rate Analog channel resolution Analog input impedance Analog input voltage GPIO output voltage Real-time clock frequency Test conditions Minimum value Typical values Maximum value Half-duplex 9600 6 2.1
-0.3 115200 12 3.9 3.9 20 3.3 32.768 Unit bps bit k V V kHz Table 4-1 SZU06C2 Interface Characteristics 10 SZU06C2 PM(Rev 2.0) 5 Absolute Maximum Ratings SZU06C2 Product Manual Parameter Supply voltage Supply current Pin voltage RF input level Output power Storage temperature range Operating temperature range Reflow temperature Notes:
-
V 3.9 3.9
-0.3
-0.3 1000 mA Symbol Min value Max value Unit DDV IVDD PINV maxP outP stgT opT deathT 125 245 19.5
-26
-40
-40 10 85 V
-
dBm dBm Note Lead-free soldering Table 5-1 Limit Parameter The limit values given in Table Table 5-1 shall not be exceeded under any condition and exceeding any one of the limit values may cause permanent damage to the device. 5.1 Environmental characteristics Parameter ESD1 Symbol Absolute maximum V THHBM ratings 2 ESD2 Humidity level V THCDM MSL 500 MSL3 Note Description of human-body mode circuit Description of charged device model Unit KV V
-
Table 5-2 Environmental Parameters Notes:
Caution! ESD sensitive device. Precautions should be used when handling the device in order to prevent permanent damage. 11 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual 5.2 Recommended operating conditions Parameter Supply voltage RF input power RF frequency Operating temperature Relative humidity Min value Typical value Max value Unit Environment 2.1
-
2405
-40
-
3.3
-
25
-
3.9 10 2480 85 95 V dbm MHz
-
%
Table 5-3 Recommended Operating Conditions 6 DC Electrical Characteristics V DD 3.3V,T OP 25 Cf 2400MHz 2483.5MHz. Parameter Test condition Symbol Supply Voltage Supply Current Reset FLASH RX Current TX Current Sleep Current Hard reset FLSH erase Flash data retention Page erase Write operation Receive enable TX power = 0dBm TX power = 3dBm TX power = 8dBm TX power = 16.5dBm TX power = 19.5dBm Enter EM2 mode Enter EM3 mode V D D IVDD I reset t reset C erase t r e te n tio n t erase I r e a d I w rite I R X ITX Isleep Value Type 3.3V Max. 3.9V
-
1000mA 2.1mA 1ms
-
-
-
-
13.7mA 17mA 23.7mA 35.5mA 88.4mA 137mA 3.0A 1.7A 3mA
-
-
40ms 3mA 3mA
-
19mA 24mA 37mA 90mA 140mA 3.2A
-
Min. 2.1V
-
10000 10years 20ms
-
-
-
-
-
-
-
-
-
-
12 SZU06C2 PM(Rev 2.0) Wake up time Enter EM4 mode From EM1 to wake From EM2 to wake From EM3 to wake From EM4H to wake From EM4S to wake t em t e m 1 w u 2 w u t e m 3 w u t t em h w u 4 em s w u 4 SZU06C2 Product Manual
-
-
-
-
-
-
0.5A 3s 3s 3s 20s 290s
-
-
-
-
-
-
Table 6-1 DC Electrical Characteristics of SZU06C2 7 Digital IO Specifications V DD 3.3V,T OP
. 25 Parameter Test conditions Logic0 input voltage Logic1 input voltage Logic0 input current Logic1 input current I/O-pin pullup resistors I/O-pin pulldown resistors Input voltage 0V Output voltage DDV Logic0 output voltage, 3mA Output load current: 4mA Logic0 output voltage, 20mA Output load current: 4mA Logic1 output voltage, 3mA Output load current: 20mA Logic1 output voltage, 20mA Output load current: 20mA Sym bol ILV IHV ILI IHI PUR PDR 3OLV 20OLV 3OHV 20OHV Parameter value Min. Typ. Max. 0.3*VDD 0.7*VDD
-
-
0.1nA 30nA 0.1nA 50nA 30k 43k 65k 30k 43k 65k 0.2*VDD 0.2*VDD 0.8*VDD 0.8*VDD Table 7-1 Digital IO Specification of SZU06C2 13 SZU06C2 PM(Rev 2.0) 8 AC Electrical Characteristics SZU06C2 Product Manual V =3.3V,T =25. DD OP No Parameter 1 Frequency range Test conditions Min Typ. Max Unit 2 3 4 5 6 7 8 9 Channel number Input impedance See Table 10.2 for the correspondence between channel and frequency Receiver sensitivity PER=1%
Input level Input voltage PER=1%
High-side adjacent channel rejection, 1% PER. Desired is reference signal at 3dB above reference sensitivity level Low-side adjacent channel rejection, 1% PER. Desired is reference signal at 3dB above reference sensitivity level Alternate channel rejection, 1% PER. Desired is reference signal at 3dB above reference sensitivity level Co-channel interferer rejection, 1% PER Interferer is reference signal at +1 channel-spacing. Interferer is filtered reference signal at +1 channel-spacing. Interferer is reference signal at -1 channel-spacing. Interferer is filtered reference signal at -1 channel-spacing. Interferer is reference signal at 2 channel-spacing. Interferer is filtered reference signal at 2 channel-spacing. Desired signal 10 dB above sensitivity limit 10 RSSI Resolution 2400 CH11 47
-102 50
-101
-
-
-
-
-
-
-
-
33.75 52.5 35 54.7 45.9 56.8
-2.6 0.25 2500 MHz CH26 53
-99 10
-
-
-
-
-
-
-
-
dBm dB dB dB dB dB dB dB dB dB 14 SZU06C2 PM(Rev 2.0) 11 12 13 14 15 16 RSSI accuracy in the linear region as defined by 802.15.4-2003 Frequency Tolerance for the crystal Occupied channel bandwidth per ETSI EN300.328 Error vector magnitude(EVM) SZU06C2 Product Manual
-
1
-
dB 38.4 MHz, ESR = 50 , CL = 10pF
-40
+40 ppm 99% BW at highest and lowest channels in band Output power at lowest power setting:19.5dBm
-
-
2.25 5.5%
-
-
MHz
%rms Actual maximum output power Output power at lowest power setting:19.5dBm Actual minimum output power Output power at lowest power setting:-26dBm 18 19 19.5 dBm
-28
-27
-26 dBm Table 8-1 RF Characteristics of SZU06C2 RF Transceiver Notes:
Reference sensitivity level is -85 dBm. Filter is characterized as a symmetric band-pass centered on the adjacent channel having a 3dB bandwidth of 4.6 MHz and stop-band rejection better than 26 dB beyond 3.15 MHz from the adjacent carrier. Frequency(center) Channel CH11 CH12 CH13 CH14 CH15 CH16 CH17 CH18 Totally 16 channels, frequency coverage: 2400MHz--2483MHz 2,405MHz 2,410MHz 2,415MHz 2,420MHz 2,425MHz 2,430MHz 2,435MHz 2,440MHz Channel CH19 CH20 CH21 CH22 CH23 CH24 CH25 CH26 Frequency (center) 2,445MHz 2,450MHz 2,455MHz 2,460MHz 2,465MHz 2,470MHz 2,475MHz 2,480MHz Table 8-2 Channel VS. Frequency of SZU06C2 15 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual 9 Physical Dimensions and Footprint 9.1 Physical Dimensions Fig. 9-1 Physical Dimensions of SZU06C2 Parameter W L1 A1 A2 Parameter Description Module width Module length Distance between semi-holes Distance from semi-hole to PCB Parameter value 19mm 25mm 1.27mm 0.8mm Table 9-1 Physical Dimensions of SZU06C2 16 SZU06C2 PM(Rev 2.0) 9.2 Recommended Footprint SZU06C2 Product Manual Fig. 9-2 Recommended Footprint of SZU06C2 Notes:
1. When the surface mounted SZU06C2 ZigBee wireless communication module is used, it is suggested that the bonding pad shall be 1mm wide and 1.2mm high. 2. L=25mm. 3. You must ensure that the corresponding PCB of keep-out area part in Fig. 3- 1shall have no any device, running line or applied copper. 4. You must also ensure that there is no exposed copper on your layout which may contact with the underside of the module. 5. To get the best RF performance, it is recommended that each GND pin shall be connected to a complete ground level. 6. It is recommended to use multiple vias between each ground pad and a solid ground plane to minimize inductivity in the ground path. 17 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual 10 Soldering Temperature Time Profile (for reflow soldering) 10.1 Recommended temperature time profile for lead-free solder Fig. 10-1 SZU06C2 Temperature Profile for Lead-free Solder Notes:
Preheat: The recommended temperature climbing speed shall be 2/s and not exceed 2.5/s at the preheat area. Cooling: The recommended temperature descent speed shall be 3/s and not exceed 4/s at the cooling area. Maximum Reflow Cycles of the module: twice The module must not be placed at the bottom of PCB board for reflow soldering (if the module is placed at the bottom of PCB board for reflow soldering, device inside the module will drop off due to gravity). 18 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual 11 Reliability Test To guarantee the environment adaptability of SZU06C2, we have done the the following measurements. No Test items 1 2 3 4 5 6 7 Vibration test Shock test Heat cycle test Moisture test Low temperature cold start test Low temperature test High temperature test Test methods Setting the vibration frequency of 50Hz, amplitude of 1.5mm, and each side of XYZ vibrates for 20 minutes respectively The module is dropped from the height of 50cm to hard floor to carry out the test for 3 times Charged operation of module: start temperature of cycle:
25-->-40 (30 minutes) -->85 (30 minutes), for 5 cycles between high and low temperature Module operates at the environment of + 60 and 90% RH for 24 hours Module will be powered after placed in the environment of
-40 for 1 hour Operating in the environment of -40 for 3 * 24 hours Operating in the environment of +85 for 3 * 24 hours Table 11-1 Reliability Test of SZU06C2 19 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual 12 Application Precautions 12.1 Safety precautions Before use of SZU06C2, check and evaluate their operation when mounted on your products . These products may short-circuit. If electrical shocks, smoke, fire, and/or accidents involving human life are anticipated when a short circuit occurs, then provide the following failsafe functions as a minimum :
(1) One protective circuit shall be designed or the protective device shall be installed to ensure the system safety
(2) One redundant circuit or one system shall be designed to prevent the safety loopholes due to single malfunction so as to ensure the system safety. 12.2 Engineering design and using precautions 1Excess temperature during use of the products is the major factor of shortening the life of the products. Thus, full consideration of the impacts of heat radiation shall be taken in the design or use of the products to ensure that the environment temperature of the products shall not exceed the maximum operable temperature. 2Otherwise, it may cause the reduction of the product performance and damage the products. 3If impulse or other transient load will be loaded to your products, the operation of SZU06C2 module must be inspected before installation and the potential impacts on the products shall be evaluated. 4When the products are used under the following special environment, the product manual shall be carefully read and the using of performance and reliability of SZU06C2 must be evaluated;
Liquid environment. Such as water, saline water, paint, alkali, organic solvent or other possible sprinkle liquid 20 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual The environment of direct sunshine, outdoor or dusty environment Environment easy to condensation Environment with high concentration and harmful gases (such as air with salt, muriatic acid, chlorine, sulfur dioxide, sulfuretted hydrogen, ammonia gas or nitrogen oxide) 5Mechanical stress shall be avoided in assembly or operation of SZU06C2. 6Do not press the shielding cover or tighten the objects to the shielding cover 7When the SZU06C2 is working, the safe distance between it and human body must be greater than 20 centimeters. 12.3 Storage conditions
(1) SZU06C2 must not be stressed mechanically during storage
(2) Performance characteristics of the module shall not be evaluated under the following environment and the storage under this environment may have a large impact on the performance of SZU06C2 (such as RF performance). Salty air or environment with high concentration corrosive gases (such as Cl2,H2S,NH3,SO2,OR NOx ) Storage in direct sunshine Storage in an environment where air humidity exceeds 85%
(3) After the above-mentioned conditions are satisfied, the storage time of the module during assembly of final products shall not exceed two years. 21 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual 13 Packaging 13.1 Carrier tape Fig. 13-1 Dimension of Carrier Tape (Top View) Fig. 13-2 Diagram of Cover Tape Fig. 13-3 Diagram of Empty pocket 22 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual Fig. 13-4 Orientation of SZU06C2 13.2 Reel Fig. 13-5 Reel Dimensions Each reel will be packed in a electrostatic shielding bag 23 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual 14 Ordering Information Product code Brief description SZU06C2 Based on EFR32MG1single chip solution On-board snake antenna 19mm * 25mm * 3.7mm Visible barrier-free communication distance is 1300m @-69dBm SZU06DVK Development Kit Development kit contains 2 X SZURF-EVB Development Boards 2 X SZU06A1 on Carrier-Board 2 X SZU06C2 on Carrier-Board 2 X SZU06C1 on Carrier-Board 2 X SZU06C2 on Carrier-Board 2 X Pulse 2.0dbi antenna 2 X RF feeder 2 X molex Micro-USB-to-USB-A data cable DIYUE Terminal and user manual SZU06 Development Kit User Manual SZU06 series module firmware 24 SZU06C2 PM(Rev 2.0) 15 Drawing of Product Label SZU06C2 Product Manual Fig. 15-1 SZU06C2 Product Label The label dimensions are 15.2mm*17mm and the label will withstand temperatures used during reflow soldering. Mark SZU06C2 CE 2D-Barcode FCC ID 170632 Detailed Description Module model CE mark 2D-Barcode shall include four parts: product batch, hardware reversion,module model and product serial number FCC ID mark and number 1706:Product batch;32:product code 753159963258 Product serial number Ex mark TPS 17 ATEX 93558 006 U ATEX Certificate number Table 15-1 SZU06C2 Label details 25 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual 16 Disclaimer We reserve the right to modify or improve the product, company name and LOGO at any time without prior notice. In addition, Chengdu Diyue Technology Co., Ltd. does not convey any license under its patent rights or assume any responsibility for the use of the described product. 17 RoHS Declaration Statement of compliance of SZU06C2 ZigBee wireless communication module to EU environmental protection:
Hereby we declare to our best present knowledge based on the declaration of our suppliers that SZU06C2 does not contain the following substances which are banned by Directive 2011/65/EU (RoHS) or if they do, contain a maximum concentration of 0,1% by weight in homogeneous materials for:
Lead and lead compounds Mercury and mercury compounds Hexavalent Chromium PBB (polybrominated biphenyl) category PBDE (polybrominated biphenyl ether ) category And a maximum concentration of 0.01% by weight in homogeneous materials for:
Cadmium and cadmium compounds 18 Data Sheet Status In order to improve design performance and supply the best possible products to customers, Chengdu Diyue Technology Co., Ltd. reserves the right to change the product specifications without notice. Please download the latest product specifications provided by our company before initiating or completing one design. 26 SZU06C2 PM(Rev 2.0) SZU06C2 Product Manual 19 Reference Documents
[1] Data sheet EFR32MG1.Silicon Labs. (www.silabs.com-EFR32MG1) 20 Contact Information Website: www.cdiyue.com Add.: 4/F, Block A, Gaofa Building, No.6, Jiuxing Avenue, High-tech Zone, Chengdu Tel: 0086-28-85138368 Fax: 0086-28-85189190 E-mailpublic@cdiyue.com Sales In China Tel: 0086-28-85106132 Fax: 0086-28-85189190 E-mailsales@cdiyue.com International sales Tel: 0086-28-85327536 Fax: 0086-28-85189190 E-mailwsales@cdiyue.com 27 SZU06C2 PM(Rev 2.0)
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2017-10-10 | 2405 ~ 2480 | DTS - Digital Transmission System | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2017-10-10
|
||||
1 | Applicant's complete, legal business name |
Chengdu Diyue Technology Co., Ltd.
|
||||
1 | FCC Registration Number (FRN) |
0026395871
|
||||
1 | Physical Address |
Room 408, 4/F, Block A, Gaofa Building
|
||||
1 |
Chengdu, N/A 610041
|
|||||
1 |
China
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
v******@tuvam.com
|
||||
1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
2ALOU
|
||||
1 | Equipment Product Code |
SZU06C
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
H******** C********
|
||||
1 | Title |
General Manager
|
||||
1 | Telephone Number |
0086-********
|
||||
1 | Fax Number |
0086-********
|
||||
1 |
c******@cdiyue.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DTS - Digital Transmission System | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | ZigBee wireless communication module | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Single Modular Approval | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Single Modular Approval. Power output listed is peak conducted. The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
MRT Technology (Suzhou) Co., Ltd
|
||||
1 | Name |
W****** J****
|
||||
1 | Telephone Number |
86-51******** Extension:
|
||||
1 |
r******@mrt-cert.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 2405.00000000 | 2480.00000000 | 0.0348000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC