FCC ID: S78-IVTI410E Bluetooth module 4.0 LE

i410e Datasheet April 12, 2013 Version 1.7 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet VERSION HISTORY REVISION AMENDMENT Initial version Modify 3, 8, 10 section DATE 2012-10-7 2012-10-9 AUTHOR Zhu Yong Wan Zhifu Huang Ruixue 1. Update power consumption;

2012-10-29 2. Change PIO4 to GND. 1. Update power consumption;

2012-11-29 2. Update format. Update package information. Refer 2012-12-12 to the chapter 10. Update Figure 1 BlueSoleil i410e 2012-12-22 and Figure 8 i410e Footprint. Add FCC, IC, CE certificate 2013-4-3 Li Li Li Li Li Li Li Li Li Li Add external antenna interface. 2013-4-12 Wan zhifu Li Li 2 / 28 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet Contents 1 2 3 4 Block Diagram ........................................................................................................................... 6 Electrical Characteristics ........................................................................................................... 7 2.1 2.2 2.3 2.4 2.5 Absolute Maximum Ratings .......................................................................................... 7 Recommended Operating Conditions ........................................................................... 8 Input/output Terminal Characteristics.......................................................................... 8 2.3.1 Switch-mode Regulator ..................................................................................... 8 2.3.2 Low-voltage Linear Regulator ............................................................................ 9 2.3.3 Digital Terminals ................................................................................................ 9 2.3.4 AIO ..................................................................................................................... 9 2.3.5 ESD Protection ................................................................................................. 10 Current Consumption .................................................................................................. 10 Radio Characteristics ................................................................................................... 10 2.5.1 RF Ports ........................................................................................................... 10 2.5.2 RF Receiver ...................................................................................................... 11 2.5.3 RF Transmitter ................................................................................................. 11 2.5.4 Bluetooth Radio Synthesizer ............................................................................ 11 2.5.5 Baseband ......................................................................................................... 11 Pin Description ........................................................................................................................ 12 Physical Interfaces ................................................................................................................... 15 4.1 UART Interface ............................................................................................................ 15 4.2 SPI Interface ................................................................................................................ 15 5 Software Stacks ....................................................................................................................... 16 5.1 BlueSoleil Stack ........................................................................................................... 17 6 7 Re-flow Temperature-time Profile........................................................................................... 17 Reliability and Environmental Specification ............................................................................ 19 7.1 7.2 Temperature test ........................................................................................................ 19 Vibration Test .............................................................................................................. 19 7.3 Desquamation Test ..................................................................................................... 19 7.4 Drop Test ..................................................................................................................... 19 7.5 Packaging Information ................................................................................................ 19 8 Layout and Soldering Considerations ...................................................................................... 20 8.1 8.2 Soldering Recommendations ...................................................................................... 20 Layout Guidelines ........................................................................................................ 20 Physical Dimensions ................................................................................................................ 21 Package............................................................................................................................ 23 Certification ..................................................................................................................... 25 11.1 11.2 Bluetooth ................................................................................................................ 25 CE 0700.................................................................................................................... 25 3 / 28 9 10 11 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet FCC .......................................................................................................................... 25 IC ............................................................................................................................. 25 11.3 11.4 Bluetooth Technology Best Developed Corporation ....................................................... 27 Contact Information ........................................................................................................ 27 Copyright ......................................................................................................................... 28 12 13 14 4 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet DESCRIPTION i410e BlueSoleil i410e is a Bluetooth 4.0 single-mode module. It provides a Bluetooth Low Energy fully compliant system for data FEATURES Fully Qualified Bluetooth system v4.0 Low energy Support Master or Slave roles Integrated layout antenna Industrial temperature range from -400C to +850C communication with IVT BlueSoleil stack. It RoHS Compliant allows your target devices to send and receive data via Bluetooth 4.0 without connecting a APPLICATIONS serial cable to your computer. By default, i410e module is equipped with powerful and easy-to-use BlueSoleil firmware. Its easy-to-use and completely encapsulated. BlueSoleil enables users to access Bluetooth functionality with simple ASCII commands delivered to the module over serial interface -

it's just like a Bluetooth modem. Therefore, BlueSoleil i410e provides an ideal solution for developers who want to integrate Bluetooth wireless technology into their design. Cable replacement Sports and fitness Healthcare Home entertainment Office and mobile accessories Automotive Commercial Watches Human interface devices Figure 1 BlueSoleil i410e 5 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet 1 Block Diagram BlueSoleil i410es block diagram is illustrated in Figure 2 below. Figure 2 i410e Block Diagram CSR1000 CSR1000 is a single chip Bluetooth 4.0 solution which implements the Bluetooth radio transceiver and also an on chip microcontroller. CSR1000 implements Bluetooth 4.0 and it can deliver data rates up to 3 Mbps. The microcontroller (MCU) on CSR1000 acts as interrupt controller and event timer run the BlueSoleil stack and control the radio and host interfaces. A 16-bit RISC microcontroller is used for low power consumption and efficient use of memory. CSR1000 has 64Kbytes of on-chip RAM. it supports the RISC MCU and is shared between the ring buffers used to hold data for each active connection and the general-purpose memory required by the BlueSoleil stack. Crystal The crystal oscillates include 16MHz and 32.768 KHz. 16MHz is external reference clock source. 32.768 KHz is used during deep sleep and in other low-power modes. EEPROM/Flash/i8002 6 / 28 DebugMCUROMRAMClock GenerationI2CSPIBluetooth LERadio and ModemUARTLED PWMPIOAIOEEPROM/FlashSPIAIOPIOPWMUART32.768K Crystal16M CrystalWAKELow Pass FilterCSR1000i8002 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet Flash /EEPROM is used for storing the Bluetooth protocol stack, profile and applications. Low Pass Filter The filter is a band pass filter (ISM band). Antenna The antenna is meander PCB antenna. Synchronous Serial Interface This is a synchronous serial port interface (SPI) for interfacing with other digital devices. The SPI port can be used for system debugging. It can also be used for programming the Flash memory. UART This is a standard Universal Asynchronous Receiver Transmitter (UART) interface for communicating with other serial devices. Programmable I/O I410e has one digital programmable I/O terminal. It is controlled by firmware running on the device. AIO I410e has 3 general-purpose analogue interface pins, AIO[2:0]. PWM I410e contains a PWM module that works in sleep modes. WAKE Wake up input. It wakes i410e from hibernate. 2 Electrical Characteristics 2.1 Absolute Maximum Ratings The module should not continuously run under extreme conditions. The absolute maximum ratings are summarized in Table 1 below. Exposure to absolute maximum rating conditions for extended periods of time may affect reliability and cause permanent damage to the device. Table 1 Absolute Maximum Ratings Rating Min Max Unit 7 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet Storage temperature Battery (VDD_BAT)operation I/O supply voltage Other terminal voltages

-40 1.8

-0.4 85 3.6 3.6 VSS-0.4 VDD+0.4 V V V 2.2 Recommended Operating Conditions Recommended operating conditions are summarized in Table 2 below. Table 2 Recommended Operating Conditions Operating temperature Battery(VDD_BAT) Operation I/O supply voltage(VDD_PADS)

. Min

-30 1.8 1.2 Typ 20

Max 85 3.6 3.6 Unit C V V 2.3 Input/output Terminal Characteristics 2.3.1 Switch-mode Regulator Table 3 Switch-mode Regulator Switch-mode Regulator input voltage Output voltage Temperature coefficient Normal Operation Output noise, Frequency range 100Hz to 100KHz Setting time, setting to within 10% of final value Output current(Imax) Quiescent current(excluding load, Iload<1mA) Ultra Low-power Mode Output current(Imax) Min 1.8 0.65

-200

Typ.

1.35

Max 3.6 1.35 200 0.4 30 50 20 100 Unit V V ppm/0C mV rms s mA A A 8 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet Quiescend current

1 A 2.3.2 Low-voltage Linear Regulator Table 4 Switch-mode Regulator Normal Operation Input voltage Output voltage 2.3.3 Digital Terminals Table 5 Digital Terminals Input Voltage Levels VIL input Logic level low Min 0.65 0.65 Min

-0.4 VIH input logic level high 0.7*VDD Tr/Tf Output Voltage Levels VOL output logic level low, IOL =

4.0mA VOH output logic level high, IOH=-4.0mA Tf/Tf Input and Tristate Currents With strong pull-up I2C with strong pull-up With strong pull-down With weak pull-up With weak pull-down CI input capacitance

0.75*VDD

-150

-250 10

-5.0 0.33 1.0 2.3.4 AIO Table 6 AIO Typ.

Max 1.35 1.20 Unit V V Typ. Max Unit

-40

40

-1.0 1.0

0.4 VDD+0.4 25 0.4

5

-10

150

-0.33 5.0 5.0 V V ns V V ns A A A A A pF Input Voltage Levels Input voltage Min 0 Typ.

Max 1.3 Unit V 9 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet 2.3.5 ESD Protection Apply ESD static handling precautions during manufacturing. ESD handling maximum ratings are summarized in Table 7 below. Table 7 ESD Handling Maximum Ratings Condition Max Unit Human body model contact discharge per JEDEC EIA/JESD22-A114 2 2000V(all pins) Machine model contact Discharge per JEDEC EIA/JESD22-A115 200V 200V(all pings) Charged Device Model Contact Discharge per JEDEC EIA/JESD22-C101 2.4 Current Consumption Table 8 Current Consumption III 500V(all pins) Operation Mode Description Average Dormant Hibernate All functions are shutdown. To wake up toggle the wake pin. VDD_PADS=ON, REFCLK=OFF, SLEEPCLK+ON, VDD_BAT=ON VDD_PADS=ON, REFCLK=OFF, SLEEPCLK=ON, 5~6uA 5~6A Deep Sleep VDD_BAT=ON, RAM=ON, digital circuits=ON, 7~8A SMPs=ON(low-power mode), 1ms wake-up time Connected Standby RX/TX active

2.5 Radio Characteristics 2.5.1 RF Ports

~1.2mA

~ 4mA BlueSoleil i410e contains an integrated balun which provides a single-ended RF TX / RX port pin. No matching components are needed as the receive mode impedance is 50 and the transmitter has been optimized to deliver power in to a 50 load. 10 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet 2.5.2 RF Receiver The receiver features a near-zero IF architecture that allows the channel filters to be integrated onto the die. Sufficient out-of-band blocking specification at the LNA input allows the receiver to be used in close proximity to GSM and WCDMA cellular phone transmitters without being significantly desensitized. An ADC digitizes the IF received signal. Low Noise Amplifier The LNA operates in differential mode and takes its input from the balanced port of the integrated balun. RSSI Analogue to Digital Converter The ADC samples the RSSI voltage on a packet-by-packet basis and implements a fast AGC. The front-end LNA gain is changed according to the measured RSSI value, keeping the first mixer input signal within a limited range. This improves the dynamic range of the receiver, improving performance in interference-limited environments. 2.5.3 RF Transmitter IQ Modulator The transmitter features a direct IQ modulator to minimize frequency drift during a transmit packet, which results in a controlled modulation index. Digital baseband transmit circuitry provides the required spectral shaping. Power Amplifier The internal PA has a maximum 7.5dBm output power without needing an external RF PA. 2.5.4 Bluetooth Radio Synthesizer The Bluetooth radio synthesizer is fully integrated onto the die with no requirement for an external VCO screening, can varactor tuning diodes, LC resonators or loop filter. The synthesizer is guaranteed to lock in sufficient time across the guaranteed temperature range to meet Bluetooth v4.0 specification. 2.5.5 Baseband Physical Layer Hardware Engine 11 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet The hardware supports all optional and mandatory features of Bluetooth v4.0 specification. It performs the following features:

Cyclic redundancy check Encryption Data whitening Access code correlation 3 Pin Description BlueSoleil i410es PIN descriptions are summarized in Figure 3 and Table 9 below. Figure 3 i410e PIN diagram Table 9 PIN Description PIN NO. 1 2 3 Name Type Function AIO[2]

Bidirectional Analogue programmable I/O line. analogue General-purpose analogue interface pins. AIO[1]

Bidirectional Analogue programmable I/O line. analogue General-purpose analogue interface pins. AIO[0]

Bidirectional Analogue programmable I/O line. analogue General-purpose analogue interface pins. 12 / 28 AIO2AIO1AIO0TXRxPIO3GNDSPI_ENGNDVDD_BATPIO5/SPI_CLKPIO6/SPI_CSBPIO7/SPI_MOSIPIO8/SPI_MISOWAKEGNDTop ViewGNDEXT_ANT BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem 4 5 6 7 8 9 10 11 i410e Datasheet Tx Rx CMOS Output TXD is used to implement UART data transfer from i410e to another device. CMOS Input RXD is used to implement UART data transfer from another device to i410e. PIO3 Bidirectional with Programmable I/O line programmable strength internal pull-up/down GND SPI_EN Ground Ground Input with strong This pin foot pulls high to SPI mode, pulled internal pull-down low for programmable I/O port mode. GND GND Ground VDD_BAT POWER

+1.8V To +3.3V Supply PIO5 /

SPI_CLK Bidirectional with Programmable I/O line or debug SPI CLK programmable selected by SPI_EN#. strength internal pull-up/down 12 PIO6 /

Bidirectional with Programmable I/O line or debug SPI CSB SPI_CSB programmable selected by SPI_EN#. strength internal pull-up/down 13 PIO7 /

Bidirectional with Programmable I/O line or debug SPI MOSI SPI_MOSI programmable selected by SPI_EN#. strength internal pull-up/down 14 PIO8 /

Bidirectional with Programmable I/O line or debug SPI MISO SPI_MISO programmable selected by SPI_EN#. strength internal pull-up/down 15 WAKE WAKE External wake-up function. When WAKE Pin pulled low(To Ground), wake-up module!

16 GND 17 GND GND GND Ground Ground 18 EXT_ANT EXT_ANT The external antenna interface GND Connect GND pins to the ground plane of PCB. VDD_BAT 13 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet 3.3 V supply voltage connection. Battery input and regulator enables (active high). PIO3 Programmable digital I/O line. AIO0 AIO2 Analog programmable I/O lines. Rx CMOS input with weak internal pull-down. RXD is used to implement UART data transfer from another device to i410e. Tx CMOS output with weak internal pull-up. TXD is used to implement UART data transfer from i410e to another device. PIO6 / SPI_CSB Programmable digital I/O lines. / CMOS input with weak internal pull-up. Active low chip select for SPI (serial peripheral interface). PIO5 / SPI_CLK Programmable digital I/O lines. / CMOS input for the SPI clock signal with weak internal pull-down. I410e is the slave and receives the clock signal from the device operating as a master. PIO8 / SPI_MISO Programmable digital I/O lines. / SPI data output with weak internal pull-down. PIO7 / SPI_MOSI Programmable digital I/O lines. / SPI data input with weak internal pull-down. WAKE Inputs to wake i410e from hibernate. Input has no internal pull-up or pull-down, use external pull-down. EXT_ANT If use the external antenna interface, the on-board antenna need to be removed. 14 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet 4 Physical Interfaces 4.1 UART Interface BlueSoleil i410e Universal Asynchronous Receiver Transmitter (UART) interface provides a simple mechanism for communicating with other serial devices using the RS232 standard. The UART interface of I410E uses voltage levels of 0 to VDD and thus external transceiver IC is required to meet the voltage level specifications of UART. In order to communicate with the UART at its maximum data rate using a standard PC, an accelerated serial port adapter card is required for the PC. Table 10 Possible UART Settings Baud rate Parameters Minimum Maximum Flow control Parity Number of stop bits Bits per channel Possible Values 1200 baud (2%Error) 9600 baud (1%Error) 2Mbaud (1%Error) RTS/CTS, none None, Odd, Even 1 or 2 8 NOTE: The maximum baud rate is 9600bps during deep sleep. 4.2 SPI Interface The synchronous serial port interface (SPI) is for interfacing with other digital devices. The SPI port can be used for system debugging. SPI interface is connected using the MOSI, MISO, CSB and CLK pins. It uses a 16-bit data and 16-bit address programming and debug interface. Transaction occurs when the internal processor is running or is stopped. The module operates as a slave and receives commands on MOSI and outputs data on MISO. Table 11 shows the instruction cycle for a SPI transaction. Table 11 Instruction Cycle for a SPI Transaction Step Operation Description 1 Reset the SPI interface Hold CSB high for 2 CLK cycles 2 Write the command word Take CSB low and clock in the 8-bit command 3 Write the address Clock in the 16-bit address word 4 Write or read data words Clock in or out 16-bit data words 5 Termination Take CSB high 15 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet With the exception of reset, CSB must be held low during the transaction. Data on MOSI is clocked on the rising edge of the clock line CLK. When reading, i410e replies to the master on MISO with the data changing on the falling edge of the CLK. The master provides the clock on CLK. The transaction is terminated by taking CSB high. The auto increment operation on the i410e cuts down on the overhead of sending a command word and the address of a register for each read or write, especially when large amounts of data are to be transferred. The auto increment offers increased data transfer efficiency on the i410e. To invoke auto increment, CSB is kept low, which auto increments the address, while providing an extra 16 clock cycles for each extra word written or read. 5 Software Stacks BlueSoleil i410e is supplied with Bluetooth v4.0 compliant stack firmware, which runs on the internal RISC microcontroller. The i410e software architecture allows Bluetooth processing and the application program to be shared in different ways between the internal RISC microcontroller and an external host processor (if any). 16 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet 5.1 BlueSoleil Stack Figure 4 BlueSoleil Stack As illustrated in Figure 4 above, no host processor is required to run the Bluetooth protocol stack. All BlueSoleil stack layers, including application software, run on the internal RISC processor. The MCU interfaces to BlueSoleil i410e via one or more of the physical interfaces, which are also shown in the figure 4. The most common interfacing is done via UART interface using the ASCII commands supported by the BlueSoleil stack. With these ASCII commands the user can access Bluetooth functionality without paying any attention to the complexity, which lies in the Bluetooth protocol stack. The user may write applications code to run on the MCU to control BlueSoleil stack with ASCII commands and to develop Bluetooth powered applications. Please refer to BlueSoleil_i410e_Programming_Manual.pdf. 6 Re-flow Temperature-time Profile The re-flow profiles are illustrated in Figure 5 and Figure 6 below. 17 / 28 RadioDebugI/OARM/MCU/Any CPUUARTBlueSoleilFirmwareHardwareL2CAP/eL2CAPSMPATT/GATT MCURAMLink ManagerGPIOAnalogueAT CMDApplicationi410e SolutionBLP/BLSGLP/GLSCSCP/CSCSRSCP/RSCSHID/HOGPHRP/HRS BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet Figure 5 Typical Lead-Free Re-flow Solder Profile Figure 6 Typical Lead-free Re-flow The soldering profile depends on various parameters according to the use of different solder and material. The data here is given only for guidance on solder re-flow. i410e will withstand up to two re-flows to a maximum temperature of 245C. 18 / 28 40+20/-15s2170C90+30/-30s2300C~2450C1500C~1900CTemp.(0C)Time(S)2170C2420C BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet 7 Reliability and Environmental Specification 7.1 Temperature test Put the module in demo board which uses exit power supply, power on the module and connect to mobile. Then put the demo in the 40 space for 1 hour and then move to +85 space within 1minute, after 1 hour move back to 40 space within1 minute. This is 1 cycle. The cycles are 32 times and the units have to pass the testing. 7.2 Vibration Test The module is being tested without package. The displacement requests 1.5mm and sample is vibrated in three directions(X,Y,Z).Vibration frequency set as 0.5G , a sweep rate of 0.1 octave/min from 5Hz to 100Hz last for 90 minutes each direction. Vibration frequency set as 1.5G, a sweep rate of 0.25 octave/min from 100Hz to 500Hz last for 20 minutes each direction. 7.3 Desquamation Test Use clamp to fix the module, measure the pull of the component in the module, make sure the module`s soldering is good. 7.4 Drop Test Free fall the module (condition built in a wrapper which can defend ESD) from 150cm height to cement ground, each side twice, total twelve times. The appearance will not be damaged and all functions OK. 7.5 Packaging Information After unpacking, the module should be stored in environment as follows:

Temperature: 25 2

- Humidity: <60%

- No acidity, sulfur or chlorine environment The module must be used in four days after unpacking. 19 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet 8 Layout and Soldering Considerations 8.1 Soldering Recommendations BlueSoleil i410e is compatible with industrial standard reflow profile for Pb-free solders. The reflow profile used is dependent on the thermal mass of the entire populated PCB, heat transfer efficiency of the oven and particular type of solder paste used. Consult the datasheet of particular solder paste for profile configurations. IVT Corporation will give following recommendations for soldering the module to ensure reliable solder joint and operation of the module after soldering. Since the profile used is process and layout dependent, the optimum profile should be studied case by case. Thus following recommendation should be taken as a starting point guide. 8.2 Layout Guidelines It is strongly recommended to use good layout practices to ensure proper operation of the module. Placing copper or any metal near antenna deteriorates its operation by having effect on the matching properties. Metal shield around the antenna will prevent the radiation and thus metal case should not be used with the module. Use grounding via separated max 3 mm apart at the edge of grounding areas to prevent RF penetrating inside the PCB and causing an unintentional resonator. Use GND via all around the PCB edges. The mother board should have no bare conductors or via in this restricted area, because it is not covered by stop mask print. Also no copper (planes, traces or via) are allowed in this area, because of mismatching the on-board antenna. 20 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet Figure 7 i410e Restricted Area Following recommendations helps to avoid EMC problems arising in the design. Note that each design is unique and the following list do not consider all basic design rules such as avoiding capacitive coupling between signal lines. Following list is aimed to avoid EMC problems caused by RF part of the module. Use good consideration to avoid problems arising from digital signals in the design. Ensure that signal lines have return paths as short as possible. For example if a signal goes to an inner layer through a via, always use ground via around it. Locate them tightly and symmetrically around the signal via. Routing of any sensitive signals should be done in the inner layers of the PCB. Sensitive traces should have a ground area above and under the line. If this is not possible, make sure that the return path is short by other means (for example using a ground line next to the signal line). 9 Physical Dimensions BlueSoleil i410es dimension is 16.6mm (L) *13.8mm (W)* 2.5mm (H). 21 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet Figure 8 i410e Footprint 22 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet 10 Package Figure 9 Reel Information 23 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet Figure 10 Tape Information 24 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet 11 Certification 11.1 Bluetooth BlueSoleil i410e module is qualified as a Bluetooth controller subsystem and it fulfills all the mandatory requirements of Bluetooth 4.0 core specification. If not modified in any way, it is a complete Bluetooth entity, containing software and hardware functionality as well as the whole RF-part including the antenna. This practically translates to that if the module is used without modification of any kind, it does not need any Bluetooth approval work for evaluation on what needs to be tested. i410e Qualified Design ID (QDID): B020729 11.2 CE 0700 Hereby, IVT Corporation declares that this device is in compliance with the essential requirements and other relevant provisions of Directive 1999/5/EC. 11.3 FCC Host manufacturer: IVT Corporation Host Brand name: BlueSoleil Host model number: i410e FCC ID: S78-IVTI410E 11.4 IC Host manufacturer: IVT Corporation Host Brand name: BlueSoleil Host model number: i410e IC: 11004A-IVTI410E The output power of this device is less than 20mW. The SAR test is not required. When using it, ensure that the antenna of the device is at least 20cm away from all persons. 25 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet This device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. This device complies with Part 15 of the FCC Rules and with RSS-210 of Industry Canada. Operation is subject to the following 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. Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes : (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. This Class B digital apparatus complies with Canadian ICES-003. Cet appareil numrique de la classe B est conforme la norme NMB-003 du Canada. NOTE: The manufacturer is not responsible for any radio or TV interference caused by unauthorized modifications or changes to this equipment. Such modifications or changes could void the users authority to operate the equipment. 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. 26 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet 12 Bluetooth Technology Best Developed Corporation IVT Corporation is one of Bluetooth technology BEST developed together which is authenticated by The Bluetooth SIG. See Figure 11 below. Figure 11 IVT is one of Bluetooth technology BEST developed together 13 Contact Information Contacts: Mr. Zhu Yong Mobile: +86 18910255873 Tel: +86 10 82898219 Fax: +86 10 62963059 Email: embedded@ivtcorporation.com Address: IVT Corporation 5/F, Fa Zhan Building No.12, Shang Di Xin Xi Road, Beijing, 100085 P.R. China Company Site: www.ivtcorporation.com Support: support@ivtcorporation.com 27 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem i410e Datasheet 14 Copyright Copyright 1999-2013 IVT Corporation All rights reserved. IVT Corporation assumes no responsibility for any errors which may appear in the specification. Furthermore, IVT Corporation reserves the right to alter the hardware, software, and/or specification detailed here at any time without notice and does not make any commitment to update the information contained here. BlueSoleil is a registered trademark of IVT Corporation for Bluetooth production. The Bluetooth trademark is owned by The Bluetooth SIG Inc., USA and is licensed to IVT Corporation. All other trademarks listed herein are owned by their respective owners. 28 / 28 BlueSoleil EcoSystem BlueSoleil EcoSystem BlueSoleil EcoSystemBlueSoleil EcoSystem