SPBT2632C1A - SOS electronic
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1. AM12047v1 Ly DocID022930 Rev 4 17 29 Hardware design SPBT2632C1A 7 Note 1 2 3 4 7 1 18 29 Hardware design The SPBT2632C1A module without AT2 command embedded FW supports UART SPI 1 C and GPIO hardware interfaces Note that the use of these interfaces is dependent upon the firmware that is loaded into the module and is beyond the scope of this document The AT2 command interface uses the main UART by default All unused pins should be left floating do not ground All GND pins must be well grounded The area around the module should be free of any ground planes power planes trace routings or metal for 6 mm from the antenna in all directions Traces should not be routed underneath the module Module reflow installation The SPB2632C1A is a high temperature strength surface mount Bluetooth module supplied on a 24 pin 6 layer PCB The final assembly recommended reflow profiles are indicated below The soldering phase must be executed with care In order to avoid an undesired melting phenomenon particular attention must be paid to the setup of the peak temperature Table 8 contains some suggestions for the temperature profile based on IPC JEDEC J STD 020C July 2004 recommendations Table 8 Soldering Profile feature PB free assembly Average ramp up rate Tsmax to Tp 3 C sec max Preheat reheat 150 C Temperature min Ts min 200 C Temperature max2. k SA life qugmented SPBT2632C1A Bluetooth technology class 1 module 15 x 27 mm November 2013 Datasheet production data Features Bluetooth radio Fully embedded Bluetooth v3 0 with profiles Class 1 module Complete RF ready module 128 bit encryption security Range upto 60 m LOS Integrated antenna Multipoint capability ST Micro Cortex M3 microprocessor up to 72 MHz 256kb flash 48kb RAM memory Modem transmitter speed Maximum speed depends on the service supported General I O 16 general purpose I Os User interface AT2 command set abSerial Firmware upgrade over UART FCC and Bluetooth qualified EPL end product listing fulfilled Single voltage supply 2 5 V typical Small form factor 15 x 27 x 2 9 mm Operating temperature range 40 C to 85 C DoclD022930 Rev 4 1 29 This is information on a product in full production www st com Contents SPBT2632C1A Contents 1 Description sota ED 5 2 ROHS compliance coi iria a a ea dee 6 3 Applications ra elk ib ATA WA e RUE RR RR ACE ard Rara 6 4 Software architecture 7 4 1 Lower layer stack taa RP RIP Bed EE bane ethos ads a 7 4 2 Upper layer stack Amp ed UP 0 7 43 AT command set abSerial 0 0 ee 7 4 4 Bluetooth firmware implantation liliis 8 5 Hardware specifications AA nunn nanne 9 5 1 Recommended operating cond
3. Note Rpy ranges from 30 KW to 50 KW internally 7 6 2 Internal reset circuit Figure 11 Internal reset circuit RESET PIN 10Kohm I AM12031v1 Note 1 Rpy ranges from 30 kW to 50 kW internally 2 Rpgr should be from 1 kW to 10 kW 7 7 Apple iOS CP reference design The figures below give an indicative overview of what the hardware concept looks like A specific MFI co processor layout is available for licensed MFI developers from the MFI program Figure 12 BT module VBAT U1 MISC control 1 GP IO 3 VIN NBAT 2 Boor o R GND RESE T GPIO 6 10K C1 0 1uF 44 GPI0 8 GPIO 15 GPI0 10 GPIO 5 TXD GP10 2 eop GPIO 4 uS MCU TXD RXD GPIO 1 i cts GPIO 0 107 RTS GPIO 13 R2 Y n2 26 Clock tt epiomy GPIO 14 x Pobata 12 gpiopa GPIO 7 NV D1 SPBT2632C1A AT2 AM11152v1 22 29 DoclD022930 Rev 4 Ly SPBT2632C1A Hardware design Figure 13 Co processor 18V Apple MFI CO Processor 2 0c R u 10k 1 8 3 vss we q 95 371 IC SDA RST LE pi NC Resch Hz 18V NC Nc e s 100n L 3d 100n 18V R T 10k x we NY SDA 10k SCL datasheet x ipod DSN Figure 14 Power switch Vin DMP3098 Q1 MCU Control Terminal R8 VBAT D3 MBRO520L i optional AM12033v1 4
4. Ts max f 60 100 sec Time t min to t max t IA above 217 ior 60 70 sec Temperature T Peak temperature Tp 240 0 C Time within 5 C of actual peak temperature Tp 10 20 sec Ramp down rate 6 C sec Time from 25 C to peak temperature 8 minutes max 2 DoclD022930 Rev 4 SPBT2632C1A Hardware design 7 2 7 3 Figure 6 Soldering profile P Critical Zone T to T Temperature gt 25CtoPek i Time gt AM12026v1 GPIO interface All GPIOs are capable of sinking and sourcing 8 mA of I O current GPIO 0 to GPIO 7 are internally pulled down with 100 kW nominal resistors GPIO 8 to GPIO 15 are internally pulled up with 100 kW nominal resistors GPIO configuration Module GPIO configuration depends on the FW embedded For example the following table summarizes the GPIO configuration set by the standard FW version the AT2 GPIO1 GPIO2 GPIO3 GPIO4 GPIO5 7 GPIO8 16 Output Input Output Input Input SPBT2632C1A AT2 connection pulled down PU live status Pa AUN pulled down lled lled status probe BOOT probe pulled down pulled up GPIO4 active status probe MCU RUN always on when the radio is in active mode Blinking when the radio is in deep sleep mode GPIO1 connection status probe always on when the module is connected GPIO can be reconfigured using the following commands
5. cable replacement enabling communication with most Bluetooth enabled devices provided that the devices support SPP profile The SPBT2532C1A AT2 supporting iAP profile provides communication with Android smartphone and Apple iOS Bluetooth enabled devices An Apple authentication IC is required to exchange data with an Apple device or access an Apple device application The AT2 FW includes the Bluetooth SPP profile capable of recognizing the Apple authentication chip Customers using the Apple authentication IC must register as developers to become an Apple certified MFI member License fees may apply for additional information visit http developer apple com programs which program index html Certified MFI developers developing electronic accessories that connect to an iPod iPhone and iPad can gain access to technical documentation hardware components technical support and certification logos Customized firmware for peripheral device interaction power optimization security and other proprietary features may be supported and can be ordered pre loaded and configured 6 29 DocID022930 Rev 4 Ly SPBT2632C1A RoHS compliance 2 RoHS compliance ST Bluetooth modules comply with the ECOPACKQ2 level of RoHS compliance The Material Declaration file is available from the ST website at the following URL http www st com web catalog sense power FM1968 CL1976 SC1324 PF25347 18 3 Applications e Serial cable replacement
6. e M2M industrial control e Service diagnostics e Data acquisition equipment e Machine controls e Sensor monitoring e Security systems e Mobile health Ly DocID022930 Rev 4 7 29 Software architecture SPBT2632C1A 4 4 1 4 2 4 3 8 29 Software architecture Lower layer stack Bluetooth v3 0 Device power active sleep and deep sleep Wake on Bluetooth feature optimized power consumption of host CPU Authentication and encryption Encryption key length from 8 bits to 128 bits Persistent Flash memory for BD address and radio parameter storage All ACL asynchronous connection less packet types Multipoint capability Sniff mode fully supported to maximum allowed intervals Master slave switch supported during connection and post connection Dedicated inquiry access code for improved inquiry scan performance Dynamic packet selection channel quality driven data rate to optimize link performance Dynamic power control Bluetooth radio natively supports 802 11b coexistence AFH Upper layer stack Amp ed UP SPP IAP SDAP and GAP protocols RFComm SDP and L2CAP supported Multipoint with simultaneous slaves AT command set abSerial The complete command list including the iAP commands is reported in user manual UM1547 2 DoclD022930 Rev 4 SPBT2632C1A Software architecture 4 4 Bluetooth firmware implantation Figure 1 FW architecture abSerial Command Set abSerial AT Command Set Applicati
7. supersedes and replaces all information previously supplied The ST logo is a registered trademark of STMicroelectronics All other names are the property of their respective owners O 2013 STMicroelectronics All rights reserved STMicroelectronics group of companies Australia Belgium Brazil Canada China Czech Republic Finland France Germany Hong Kong India Israel Italy Japan Malaysia Malta Morocco Philippines Singapore Spain Sweden Switzerland United Kingdom United States of America www st com Ly DoclD022930 Rev 4 29 29
8. DoclD022930 Rev 4 23 29 Regulatory compliance SPBT2632C1A 8 Regulatory compliance 8 1 FCC and IC This module has been tested and found to comply with the FCC part 15 and IC RSS 210 rules These limits are designed to provide reasonable protection against harmful interference in approved installations 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 may not occur in a particular installation This device complies with part 15 of the FCC rules 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 Modifications or changes to this equipment not expressly approved by the part responsible for compliance may render void the user s authority to operate this equipment Modular Approval FCC and IC FCC ID X3ZBTMOD3 IC 8828A MOD3 In accordance with FCC part 15 the SPT2632C1A AT2 is listed above as a modular transmitter device Label instructions When integrating the SPBT2632C1 A AT2 into the final product it must be ensured that the FCC labelling requirements as specified below are satisfied Based on the public notice from FCC the product into which the ST t
9. ECT TO THE USE AND OR SALE OF ST PRODUCTS INCLUDING WITHOUT LIMITATION IMPLIED WARRANTIES OF MERCHANTABILITY FITNESS FOR A PARTICULAR PURPOSE AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION OR INFRINGEMENT OF ANY PATENT COPYRIGHT OR OTHER INTELLECTUAL PROPERTY RIGHT ST PRODUCTS ARE NOT DESIGNED OR AUTHORIZED FOR USE IN A SAFETY CRITICAL APPLICATIONS SUCH AS LIFE SUPPORTING ACTIVE IMPLANTED DEVICES OR SYSTEMS WITH PRODUCT FUNCTIONAL SAFETY REQUIREMENTS B AERONAUTIC APPLICATIONS C AUTOMOTIVE APPLICATIONS OR ENVIRONMENTS AND OR D AEROSPACE APPLICATIONS OR ENVIRONMENTS WHERE ST PRODUCTS ARE NOT DESIGNED FOR SUCH USE THE PURCHASER SHALL USE PRODUCTS AT PURCHASER S SOLE RISK EVEN IF ST HAS BEEN INFORMED IN WRITING OF SUCH USAGE UNLESS A PRODUCT IS EXPRESSLY DESIGNATED BY ST AS BEING INTENDED FOR AUTOMOTIVE AUTOMOTIVE SAFETY OR MEDICAL INDUSTRY DOMAINS ACCORDING TO ST PRODUCT DESIGN SPECIFICATIONS PRODUCTS FORMALLY ESCC QML OR JAN QUALIFIED ARE DEEMED SUITABLE FOR USE IN AEROSPACE BY THE CORRESPONDING GOVERNMENTAL AGENCY Resale of ST products with provisions different from the statements and or technical features set forth in this document shall immediately void any warranty granted by ST for the ST product or service described herein and shall not create or extend in any manner whatsoever any liability of ST ST and the ST logo are trademarks or registered trademarks of ST in various countries Information in this document
10. Y TXD O 6 Transmit data Y CTS l 9 Clear to send active low RTS o 10 Request to send active y low Boot loader Boot 0 l 2 Reserved Power and ground Vop 24 Vop GND 23 GND Reset RESETN 3 Reset input active low for 2 5 Vmax 5 ms GPIO general purpose input output GPIO 0 vo 16 General purpose SPI MISO Y input output GPIO 1 vO 17 General purpose SPI MOSI Y input output GPIO 2 VO 19 General purpose SPI SS Y input output GPIO 3 VO 1 General purpose SPI CLK Y input output GPIO 4 VO 18 General purpose UART 2 RXD Y input output GPIO 5 vo 20 General purpose UART 2 TXD Y input output GPIO 6 VO 22 General purpose ADC 0 2 5 Vmax input output GPIO 7 VO 13 General purpose ADC 1 2 5 Vmax input output GPIO 8 VO 4 General purpose ADC 2 2 5 Vmax input output GPIO 9 vo 7 General purpose ADC 3 2 5 Vmax input output GPIO 10 VO 5 General purpose Y input output Ly DoclD022930 Rev 4 13 29 Hardware specifications SPBT2632C1A 14 29 Table 7 Pin assignment continued Name Type Pin Description ALT function 5 V tolerant GPIO 11 1O 11 General purpose 120 SCL Y input output GPIO 12 1O 12 Generalpurpose I2C SDA Y input output GPIO 13 vo 15 General purpose Y input output GPIO 14 lo 14 General purpose Y input output GPIO 15 lo 21 General purpose DAC 2 5 Vmax input output 1 Please note that the usage of ALT function i
11. doa a E a h E 22 BT module naase js AL hes Nw pa A a A RO ac e ewe idos 22 CO PrOCOSSON siuii is e o REL xU do oe A a a e ER dara 23 POWGISWIGCh 6e s dd ANA a aa A 23 DoclD022930 Rev 4 5 29 Description SPBT2632C1A 1 Description The SPBT2632C1A AT2 is an easy to use Bluetooth module compliant with Bluetooth v3 0 The module provides complete RF platform in a small form factor The SPBT2632C1 A AT2 enables electronic devices with wireless connectivity not requiring any RF experience or expertise for integration into the final product The SPBT2632C1A AT2 module being a certified solution optimizes the time to market of the final application The module is designed for maximum performance in a minimal space including fast speed UART and 16 general purpose l O lines several serial interface options and up to 560 kbps transmission speed with SPP service active 250 kbps with iAP service active An optimized design allows the integration of a complete working Bluetooth modem including antenna and LPO low power oscillator enabling low power mode capability in the minimum possible size The SPBT2632C1A AT2 is a surface mount PCB module that provides fully embedded ready to use Bluetooth wireless technology The reprogrammable Flash memory contains embedded firmware for serial cable replacement using the Bluetooth SPP profile Embedded Bluetooth AT2 command firmware is a friendly interface which realizes a simple control for
12. e At ab gpioconfig GPIO pin I O e At ab gpioRead GPIO pin e At ab gpioWrite GPIO pin 1 0 For additional details refer to user manual UM1547 DocID022930 Rev 4 19 29 Hardware design SPBT2632C1A 7 4 UART interface The UART is compatible with the 16550 industry standard Four signals are provided with the UART interface The TXD and RXD pins are used for data while the CTS and RTS pins are used for flow control Figure 7 Connection to host device Bluetooth Module AM12027v1 RS 232 TRANSCEIVER Bluetooth module AM12028v1 2 20 29 DoclD022930 Rev 4 SPBT2632C1A Hardware design 7 5 PCB layout guidelines Figure 9 PCB layout guidelines Application PCB flooded ground plane required traces allowed minimun traces to these pins d 6mm clear zone surronding antenna no ground plane no traces AM12029v1 7 6 Reset circuit Two types of system reset circuits are detailed below The maximum voltage that can be supplied to the RESET pin is 2 5 V As shown in Figure 9 and Figure 10the RESET is active low in absence of a reset circuit the pin is internally pulled up and therefore inactive 7 6 1 External reset circuit Figure 10 External reset circuit External reset circuit cas N RESET PIN 1 I I AM12030v1 Ly DocID022930 Rev 4 21 29 Hardware design SPBT2632C1A
13. ions 5 4 5 5 Table 3 Current consumption continued Modes typical power consumption Avg Unit Standby without deep sleep 8 6 mA Standby with deep sleep 60 yA Page inquiry scan deep sleep 520 HA Standard CPU mode current consumption e High speed CPU mode CPU8MHz UART supports up to 115 Kbps Data throughput up to 200 Kbps Shallow sleep enabled Table 4 Standard CPU mode current consumption Modes typical power consumption Avg Unit ACL data 115 K Baud UART at max throughput master 16 7 mA ACL data 115 K Baud UART at max throughput slave 18 mA Connection no data traffic master 4 9 mA Connection no data traffic slave 7 0 mA Connection in sniff Tsniff 375 ms no data traffic master 490 HA Standby without deep sleep 4 2 mA Standby with deep sleep 60 yA Page Inquiry scan deep sleep 520 HA I O operating characteristics Table 5 I O operating characteristics Symbol Parameter Min Max Unit Conditions ViL Low level input voltage 0 6 V Vin 2 1 V Vin High level input voltage 1 4 V Vin 2 1 V VoL Low level output voltage 0 4 V Vin 2 1 V Vou High level output voltage 1 8 V Vin 2 1 V lot Low level output current 4 0 mA VoL 0 4 V loH High level output current 4 0 mA Vou 1 8 V Rpy Pull up resistor 80 120 kW Resistor turned on Rpp Pull down resistor 80 120 kW Resistor turned on DoclD022930 Re
14. ist of tables Table 1 Table 2 Table 3 Table 4 Table 5 Table 6 Table 7 Table 8 Table 9 Table 10 4 29 Recommended operating conditions llle 10 Absolute maximum ratings lille n 10 Current consumption er mre 10 Standard CPU mode current consumption llle elens 11 I O operating characteristics aeaaea 11 Selected RF characteristics 0 00 cece rh 12 Pin assignimet ee eae mp o RUE Urbe e 13 SOJEN G toi s Rh ze RR UL Mee a UR CR e De rcm ERR Meat un NG Wena Bie She 18 Ordering information rn 27 Document revision history eae 28 4 DoclD022930 Rev 4 SPBT2632C1A List of figures List of figures Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Figure 6 Figure 7 Figure 8 Figure 9 Figure 10 Figure 11 Figure 12 Figure 13 Figure 14 EW architecture viii esee pateo iioa a aiin ea A LG KNANG 9 Pin connection diagram peses es irs tenet 12 Mechanical dimensions n 15 Recommend land pattern top view llle Ih 16 SPBT2632C1A AT2 module block diagram lisse lesen 17 Soldering profile c doe cs gie ees dor a Ro e debe RO SU a OR le e ee ad cd 19 Connection to host device n 20 Typical RS232 circuit llle 20 PCB layout guidelines illis mue 21 External reset CIICUlt i oec oce dee Rao ror ec CR Ron RADAR a A ed 21 Internal reset Circuit si s micen i ea aa a a A a AE a i
15. itions 0 0 eee eee 9 5 2 Absolute maximum ratings llle 9 5 3 High speed mode CPU current consumption a 9 5 4 Standard CPU mode current consumption s ssas aasan ea 10 5 5 I O operating characteristics anona 10 5 6 Selected RF characteristics corista da ER 11 5 7 PIN GSSIONINGIW 322 etek eee daa Erre 11 5 8 Mechanical dimensions i3 ese Rx Ha NINE NEED REG Sea wes 14 6 Hardware block diagram nnan n nnne 16 7 Hardware design ka ia ee ew eie aC ia a la CA cate 17 7 1 Module reflow installation lt ooooooomoomoomoo 17 7 2 GPIO interface tara RA d e ERE S Rau RR RI Pd 18 7 3 GPIO configuration six vxor rita WE Heke REP 18 7 4 UART interface o o ooooooooo lee 19 7 5 PCB layout guidelines iussi annann an 20 7 6 Reset eIrGul coi ksr oh on ng KALA dd A au RE RUE 20 7 6 1 External reset circuit llle 20 7 6 2 Internal reset circuit o ooocoooooooooo e 21 2 29 DoclD022930 Rev 4 Ly SPBT2632C1A Contents 10 11 7 7 Apple iOS CP reference design ooocccocccccccnr ees 21 Regulatory compliance oooocoococon eee eee 23 8 1 FOOD andi cli lis Cad gui sd 23 8 2 Bluetooth certification oils raras FEES 23 8 3 CE certification 7 7 BKA RAMA wa KAGAT LA at ew kes 24 Traceability ia AA A 25 Ordering information sorna ir di 26 Revision history rara a ae ee d d 27 DoclD022930 Rev 4 3 29 List of tables SPBT2632C1A L
16. notes in Table 6 and 7 07 Aug 2012 3 m Modified Section 7 29 Oct 2013 4 Added new section Section 5 8 Section 7 3 and Section 9 2 DoclD022930 Rev 4 SPBT2632C1A Please Read Carefully Information in this document is provided solely in connection with ST products STMicroelectronics NV and its subsidiaries ST reserve the right to make changes corrections modifications or improvements to this document and the products and services described herein at any time without notice All ST products are sold pursuant to ST s terms and conditions of sale Purchasers are solely responsible for the choice selection and use of the ST products and services described herein and ST assumes no liability whatsoever relating to the choice selection or use of the ST products and services described herein No license express or implied by estoppel or otherwise to any intellectual property rights is granted under this document If any part of this document refers to any third party products or services it shall not be deemed a license grant by ST for the use of such third party products or services or any intellectual property contained therein or considered as a warranty covering the use in any manner whatsoever of such third party products or services or any intellectual property contained therein UNLESS OTHERWISE SET FORTH IN ST S TERMS AND CONDITIONS OF SALE ST DISCLAIMS ANY EXPRESS OR IMPLIED WARRANTY WITH RESP
17. on and or Custom Application Application AA Layer API BT Profiles SDP RFCOMM Upper layer Stack BT Profiles Amp edUP HCI over UART AM11151v1 Ly DoclD022930 Rev 4 9 29 Hardware specifications SPBT2632C1A 5 Hardware specifications General conditions Viy 2 5 V and 25 C 5 1 Recommended operating conditions Table 1 Recommended operating conditions Rating Min Typ Max Unit Operating temperature range 40 85 C Supply voltage Vin 2 0 25 3 6 V Signal pin voltage 2 1 V RF frequency 2400 2483 5 MHz 5 2 Absolute maximum ratings Table 2 Absolute maximum ratings Rating Min Typ Max Unit Storage temperature range 55 105 C Supply voltage Vin 0 3 5 0 V O pin voltage Vio 0 3 5 5 V RF input power 5 dBm 5 3 High speed mode CPU current consumption e High speed CPU mode current consumption CPU 32 MHz UART supports up to 921 Kbps Max data throughput Shallow sleep enabled Table 3 Current consumption Modes typical power consumption Avg Unit ACL data 115 K Baud UART at max throughput master 23 mA ACL data 115 K Baud UART at max throughput slave 27 5 mA Connection no data traffic master 9 1 mA Connection no data traffic slave 11 2 mA Connection in sniff Tsniff 375 ms no data traffic master 490 yA 10 29 DoclD022930 Rev 4 Ly SPBT2632C1A Hardware specificat
18. ransmitter module is installed must display a label referring to the enclosed module The label should use wording such as the following Contains transmitter module FCC ID X3ZBTMOD3 IC 8828A MOD3 Any similar wording that expresses the same meaning may be used 8 2 Bluetooth certification Module with embedded stack and profile has been qualified according to SIG qualification rules Bluetooth SIG qualified design QD ID B019224 Product type end product TGP version Core 3 0 Core spec version 3 0 Product descriptions Bluetooth module spec V3 0 2 24 29 DoclD022930 Rev 4 SPBT2632C1A Regulatory compliance 8 3 CE certification Module has been certified according to following certification rules CE Expert opinion 0447 ARAM00002 Measurements have been performed in accordance with report available on request EN 300 328 V 1 7 1 2006 10 9 EN 301 489 17 V 2 1 1 2009 EN60950 1 2006 A11 2009 A1 2010 00510 a EN 300 328 V 1 7 1 2006 10 electromagnetic compatibility and radio spectrum Matters ERM Wideband transmission systems data transmission equipment operating in the 2 4 GHZ ISM band and using wideband modulation techniques harmonized EN covering essential requirements under article 3 2 of the R amp TTE directive b EN 301 489 17 V 2 1 1 2009 electromagnetic compatibility and radio spectrum Matters ERM electromagnetic compa
19. s dependant upon the firmware that is loaded into the module and is beyond the scope of this document The AT command interface uses the main UART by default DoclD022930 Rev 4 4 SPBT2632C1A Hardware specifications 5 8 Mechanical dimensions Figure 3 Mechanical dimensions 0 5 0 76 N M e pitch 1 524mm Tolerances 0 025mm 1 524 E K HL Scale 10 1 LU Antenna 15 24 3 BOTTOM VIEW DoclD022930 Rev 4 15 29 Hardware specifications SPBT2632C1A 16 29 Figure 4 Recommend land pattern top view E m 1 524x11 24 13 i 6 pads 00x12 7d i 3 i T x lt NG o i NN N JE Y 1 12 BEA 0 22 1 2 DoclD022930 Rev 4 Ly SPBT2632C1A Hardware block diagram 6 Hardware block diagram Figure 5 SPBT2632C1A AT2 module block diagram Battery or Supply Antenna Regulator 256K Flash BP Filter
20. tibility EMC standard for radio equipment and services part 17 specific condition for 2 4 GHz wideband transmission systems and 5 GHz high performance RLAN equipment c EN60950 1 2006 A11 2009 A1 2010 Information technology equipment safety a DoclD022930 Rev 4 25 29 Traceability SPBT2632C1A 9 Traceability Each module is unambiguously identified by serial number stored in a 2D data matrix laser mark on the bottom side of the module itself The serial number has the following format WW YY D FF NNN where WW week YY year D product ID family FF production panel coordinate identification NNN progressive serial number Each module bulk is identified by a bulk ID BULK ID and module 2D data matrix are linked by a reciprocal traceability link The module 2D data matrix traces the lot number of any raw material used 2 26 29 DoclD022930 Rev 4 SPBT2632C1A Ordering information 10 Ordering information Table 9 Ordering information Order code Description Packing MOQ SPBT2632C1A AT2 Class 1 OEM Bluetooth antenna module JEDEC tray 1020 pcs Ly DocID022930 Rev 4 27 29 Revision history SPBT2632C1A 11 28 29 Revision history Table 10 Document revision history Date Revision Changes 23 Apr 2012 1 Initial release Document status promoted from preliminary data to production 12 Jun 2012 2 data Modified Figure 1 Added
21. v 4 11 29 Hardware specifications SPBT2632C1A 5 6 Selected RF characteristics Table 6 Selected RF characteristics Parameters Conditions Typical Unit Antenna load 50 ohm Radio receiver Sensitivity level BER lt 001 with DH5 90 dBm Maximum usable level BER lt 001 with DH1 0 dBm Input VSWR 2 51 Radio transmitter Maximum output power 50 W load 10 dBm Initial carrier frequency tolerance 0 kHz 20 dB bandwidth for modulated carrier 935 kHz 1 RF characteristics can be influenced by physical characteristics of final application 5 7 Pin assignment Figure 2 Pin connection diagram 600 mil Size 26 9 x 15 2 x 2 9 mm height tolerance 0 1 mm 15 2 mm Xu La APRES 65 mil 0 655 mm mam i FT 7777 AD iii LLL 1 02 mm BOOTO GND 23 RESET GPIO 6 22 L li 7 7 60 mil GPIO 8 GPIO 15 21 1 53 mm GPIO 10 GPIO 5 20 TXT GPIO 2 19 GPIO 9 GPIO 4 18 GPIO 1 17 GPIO 0 16 1060 mil 26 9 mm GPIO 13 15 11 GPIO 11 GPIO 14 14 12 GPIO 12 GPIO 7 ssm gt ft 1 4 mm 1 1 i 7 335 mil i y EZ 8 5 mm 1 160 mil 1 i sa e NG s 520 mil 13 2 mm AM12044v1 12 29 DoclD022930 Rev 4 ky SPBT2632C1A Hardware specifications Table 7 Pin assignment Name Type Pin Description ALT function 5 V tolerant UART interface RXD l 8 Receive data
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