a module solution provider WG1300-00 EM Board User Guide Revision 0.1 Copyright JORJIN TECHNOLOGIES INC. 2012 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG1300-00 EM Board-UG-D01 Index 1. INTRODUCTION1 2. WG1300-00 EM BOARD ........................................................................................ 2 2.1. TOP SIDE ............................................................................................................. 2 2.2. BOTTOM SIDE .................................................................................................... 5 2.3. Hardware setup7 2.4. Schematics...8 2.5. Bill of Material (BOM)...9 3. APPLICATION EXAMPLES...10 4. HISTORY CHANGE ............................................................................................. 11 Copyright JORJIN TECHNOLOGIES INC. 2012 Page 1 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG1300-00 EM Board-UG-D01 1. INTRODUCTION The purpose of this user guide is to help user understanding how to use WG1300-00 EM (Evaluation Module) board to complete hardware setup for test to evaluate the performances of CC3000-WG1300-00 SiP Module. 2. WG1300-00 EM BOARD In the following sub-sections, itll divide into TOP and BOTTOM Side to explain details on the key parts and its features. 2.1. TOP Side Figure 1 is TOP-Side picture of WG1300-00 EM Board. Antenna J4 J2 J1 J5 CC3000-WG1300-00 Module J3 Figure 1. TOP Side of WG1300-00 EM Board The picture above marks some key parts and jumpers and Table 1 below shows the explanations to them in the details. Copyright JORJIN TECHNOLOGIES INC. 2012 Page 2 http://WWW.JORJIN.COM.TW CONFIDENTIAL Items 1 2 3 4 5 6 7 Doc No: WG1300-00 EM Board-UG-D01 Key Parts CC3000-WG1300-00 Module Antenna J1 J2 J3 J4 J5 Descriptions The core module for performance evaluation. Its related feature can be referred to its datasheet. It can used for radiated test by reworking cpacitor to correct pads. Its a U.FL RF connector via which you can proceed conducted power test. It is a jumper via which we can swap testing modes, test mode and operation mode. When pin 2 and pin 3 are shorted, it runs in operation mode and it operate in test mode when pin 1 and pin 2 are shorted. It is a jumper for testing power consumption. In operation mode, pins of the jumper is shorted. For power testing, the jumper is removed and ammeter crosses the pins to do the testing. Refer to Table 2. For more details on these through-hole test points Refer to Table 3. For more details on these through-hole test points Table 1. TOP-Side Key parts of WG1300-00 EM Board Table 2 below shows the signal descriptions of J4 Pin Number Pin Name Pin Type Descriptions 1 2 3 4 5 6 GND NS_UARTD FUNC4 I/O
WL_UART_DBG I/O WL_RS232_TX O Ground Networking subsystem UART Debug line Leave floating UART Debug Line Test RS232 transmit output; Leave floating for normal operation WL_RS232_RX I Test RS232 receive output; Leave floating Copyright JORJIN TECHNOLOGIES INC. 2012 Page 3 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG1300-00 EM Board-UG-D01 7 8 9 10 11 12 GND WL_SPI_CS WL_SPI_DOUT WL_SPI_IRQ WL_SPI_DIN WL_SPI_CLK I O O I I for normal operation Ground Host interface SPI Chip Select Host interface SPI Data Ouput Host Interface SPI Interrupt Request Host Interface SPI Data Input Host interface SPI Clock input Table 2. TOP-Side J4 of WG1300-00 EM Board Table 3 below shows the signal descriptions of J5 Pin Number Pin Name Pin Type Descriptions 1 2 3 4 5 6 7 8 SCL_CC3000 SCL_EEPROM SDA_CC3000 SDA_EEPROM VBAT_SW_EN GND GND VIO_HOST O I I/O I/O I PI I2C Clock signal output from CC3000. This pin is connected to SCL_EEPROM via a 0-Ohm resister and is not used by end users. I2C Clock signal input from EEPROM inside CC3000-WG1300-00 SiP Module. This pin is connected to SCL_CC3000 via a 0-Ohm resister and is not used by end users. I2C Data signal from CC3000. This pin is connected to SDA_EEPROM via a 0-Ohm resister and is not used by end users. I2C Data signal from EEPROM inside CC3000-WG1300-00 SiP Module. This pin is connected to SDA_CC3000 via a 0-Ohm resister and is not used by end users. Active-high enable signal from Host device. Ground Ground VIO power supply from HOST to Module. For MSP430 Host platform, VIO_HOST=VBAT_IN. For other platforms which have different voltage levels from Copyright JORJIN TECHNOLOGIES INC. 2012 Page 4 http://WWW.JORJIN.COM.TW CONFIDENTIAL 9 10 11 Doc No: WG1300-00 EM Board-UG-D01 VBAT_IN GND EXT_32KHz PI I Battery voltages, R14 can be remove to support such a case. Battery voltage input to Module. For MSP430 Host platform, VIO_HOST=VBAT_IN. For other platforms which have different voltage levels from Battery voltages, R14 can be remove to support such a case. Ground External Slow Clock input from Host device. It can be used for the SiP Module inside which hasnt slow clock source. Table 3. TOP-Side J5 of WG1300-00 EM Board 2.2. BOTTOM Side Figure 2 is BOTTOM-Side picture of WG1300-00 EM Board. J7 J6 Figure 2. Bottom Side of WG1300-00 EM Board There are two EM Board mating connectors which are used for connecting to Host platform and are mounted on the bottom side as the picture above. Table 4 and Table 5 show the descriptions on the Copyright JORJIN TECHNOLOGIES INC. 2012 Page 5 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG1300-00 EM Board-UG-D01 signals brought out from these two EM mating connectors. J6 Pin Number Pin Name Module Pin Type Description I I O I I Ground External Slow Clock input from Host device. It can be used for the SiP Module inside which hasnt slow clock source. Active-high enable signal from Host device. Host Interface SPI Interrupt Request Host interface SPI Chip Select Host interface SPI Clock input GND EXT_32KHz VBAT_SW_EN WL_SPI_IRQ WL_SPI_CS WL_SPI_CLK WL_SPI_DIN GND 1 5 10 12 14 16 18 19 20 J7 Pin Number 2 7 9 15 I O Host Interface SPI Data Input Ground Host interface SPI Data Ouput WL_SPI_DOUT Table 4. BOTTOM-Side J6 of WG1300-00 EM Board Pin Name Module Pin Type Description GND VBAT_IN VBAT_IN EXT_32KHz PI PI I Ground Battery voltage input to Module Battery voltage input to Module External Slow Clock input from Host device. Table 5. BOTTOM-Side J7 of WG1300-00 EM Board Copyright JORJIN TECHNOLOGIES INC. 2012 Page 6 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG1300-00 EM Board-UG-D01 2.3. Hardware Setup Before conducting performance test, EM Board should be connected to Host platform, either with mating connectors, J6 and J7, or single row headers, J4 and J5. For the case of using EM mating connector for hardware connection, the mating EM connector should be lined up and spaced 1.2 apart as Figure 3 below Figure 3. Host PCB Mating Connector Arrangement For the case of using single row headers, the necessary signals as the ones brought out from EM mating connector need to be wired to Host platform. Copyright JORJIN TECHNOLOGIES INC. 2012 Page 7 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG1300-00 EM Board-UG-D01 2.4. Schematics Figure 4 is the schematics of WG1300-00 EM Board WG1300-00 Module VBAT_IN: 2.7V~4.8V => 3.3V TYP VIO_HOST: Voltage of Host Level (1.2V~3.6V) 1 ANT1 AT8010 AT8010 2 C1 10pF CAP1005 L1 NL IND1005 L2 NL IND1005 J1 U.FL-R-SMT(10) U.FL 2 1 3 C2 NL_10pF CAP1005 C3 10pF CAP1005 6 3 5 3 4 3 3 3 2 3 1 3 0 3 9 2 J2 HEADER 1x3 pitch 2.0-1x3 1 2 3 Test mode => 1-2 short to GND Functional mode => 2-3 short NS_UARTD FUNC4 WL_UART_DBG WL_EN2 WL_RS232_TX WL_EN1 WL_RS232_RX R3 R4 R6 R8 R9 R10 R11 0R RES1005 0R RES1005 0R RES1005 0R RES1005 0R RES1005 0R RES1005 0R RES1005 1 2 3 4 5 6 7 8 9 10 GND NS_UARTD FUNC4 WL_UART_DBG WL_EN2 WL_RS232_TX WL_EN1 WL_RS232_RX GND GND D N G D N G D N G D N G D N G T N A _ F R 0 0 0 3 C C _ L C S M O R P E E _ L C S U1 WG1300-00 E-N46_13.5X16.3_TOP T U O D _ I P S S C _ I P S D N G Q R I _ I P S N I D _ I P S D N G K L C _ I P S D N G 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 WL_SPI_CS WL_SPI_DOUT WL_SPI_IRQ WL_SPI_DIN WL_SPI_CLK RES1005 RES1005 RES1005 RES1005 RES1005 0R 0R 0R 0R 0R R15 R16 R17 R18 R19 SCL_CC3000 R1 0R RES1005 SCL_EEPROM EEPROM select:
Test mode => R1,R2 - NL Functional mode => R1,R2 - 0R to short SDA_CC300 R2 0R RES1005 SDA_EEPROM 6 4 5 4 4 4 3 4 2 4 1 4 D N G D N G D N G D N G D N G D N G SDA_CC3000 28 27 SDA_EEPROM VBAT_SW_EN 26 GND 25 24 VIO_SOC VIO_HOST 23 GND 22 EXT_32K 21 GND 20 19 VBAT_IN D N G D N G D N G D N G 7 3 8 3 9 3 0 4 Test mode => R7 - 1K to PU R5 0R RES1005 VBAT_SW_EN R7 NL_1K RES1005 VIO_HOST C4 1uF CAP1005 R12 R13 NL_0R RES1005 EXT_32KHz 0R RES1005 Internal 32kHz => R13 short to GND External 32kHz => R12 short C5 1uF CAP1005 VBAT_IN 12 J3 HEADER 1x2 pitch 2.0-1x2 Header for Debug EM Connector 1 2 3 4 5 6 7 8 9 10 11 12 NS_UARTD FUNC4 WL_UART_DBG WL_RS232_TX WL_RS232_RX WL_SPI_CS WL_SPI_DOUT WL_SPI_IRQ WL_SPI_DIN WL_SPI_CLK J4 NL_HEADER 1x12 pitch 2.0-1x12 VIO_HOST=VBAT_IN in MSP430 case SCL_CC3000 SCL_EEPROM SDA_CC300 SDA_EEPROM VBAT_SW_EN VIO_HOST VBAT_IN R14 0R RES1608 EXT_32KHz 1 2 3 4 5 6 7 8 9 10 11 J5 NL_HEADER 1x11 pitch 2.0-1x11 EXT_32KHz R20 0R RES1005 1 3 5 7 9 11 13 15 17 19 2 4 6 8 10 12 14 16 18 20 VBAT_SW_EN WL_SPI_IRQ WL_SPI_CS WL_SPI_CLK WL_SPI_DIN WL_SPI_DOUT J6 SFM-110-02-L-D-A pitch 1.27-2x10 Connect to RF1 VBAT_IN EXT_32KHz R21 0R RES1005 1 3 5 7 9 11 13 15 17 19 2 4 6 8 10 12 14 16 18 20 J7 SFM-110-02-L-D-A pitch 1.27-2x10 Connect to RF2 Figure 4. Schematics of WG1300-00 EM Board Copyright JORJIN TECHNOLOGIES INC. 2012 Page 8 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG1300-00 EM Board-UG-D01 2.5. Bill Of Material (BOM) Reference Designator U1 ANT1 J1 J2 J3 Description TI CC3000 WiFi b/g Module (BM) ANT / 2.4GHZ / Peak Gain 2.5DB Mini RF Header Receptacle CON Male 1x3 / Pitch 2.0 mm CON Male 1x2 / Pitch 2.0 mm J6,J7 C1,C3 C4,C5 R1,R2,R3,R4,R5,R6,R8,R9, R10,R11,R13,R15,R16, R17,R18,R19,R20,R21 R14 Female Header / Fool Proof H:4.3 / 2x10 /
Pitch 1.27mm / SMT CAP 0402 / 10pF / 50V / NPO / 5%
CAP 0402 / 1uF / X5R / 6.3V / 10% / HF RES 0402 / 0R / Jumper RES 0603 / 0R / Jumper Table 6. BOM of WG1300-00 EM Board Items 1 2 3 4 5 6 7 8 9 10 Copyright JORJIN TECHNOLOGIES INC. 2012 Page 9 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG1300-00 EM Board-UG-D01 3. APPLICATION DEVELOPMENT Texas Instrument had developed a HOST platform, MSP-EXP430FR5730, for evaluating CC3000-based SiP Module. Figure 4 shows the platform and WG1300-00 EM Board Figure 4. MSP-EXP430FR5730 and WG1300-00 EM Board The MSP-EXP430FR5739 test platform can be ordered as the link below. http://www.ti.com/tool/msp-exp430fr5739 Specific application examples can refer to the link below http://processors.wiki.ti.com/index.php/CC3000 Wi-Fi for MCU Copyright JORJIN TECHNOLOGIES INC. 2012 Page 10 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG1300-00 EM Board-UG-D01 4. HISTORY CHANGE Revision Date R 0.1 2012/2/28 Description Release 0.1 Copyright JORJIN TECHNOLOGIES INC. 2012 Page 11 http://WWW.JORJIN.COM.TW CONFIDENTIAL