a module solution provider WG7833-B0 WLAN/BT Module TI WiLink8 IEEE 802.11a/b/g/n BT/BLE Solution Datasheet Revision 0.3 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 Index 1. OVERVIEW ................................................................................................................................... 4 1.1. MODELS FUNCTIONAL BLOCKS ................................................................................................ 4 1.2. GENERAL FEATURES ................................................................................................................. 4 2. FUNCTIONAL FEATURES ............................................................................................................ 5 2.1. MODULE BLOCK DIAGRAM ..................................................................................................... 5 2.2. BLOCK FUNCTIONAL FEATURE .................................................................................................. 5 2.2.1. WLAN Features .......................................................................................................... 5 2.2.2. Bluetooth Features.................................................................................................... 6 2.2.3. BLE Features ................................................................................................................ 6 2.2.4. ANT Features .............................................................................................................. 7 3. MODULE OUTLINE ....................................................................................................................... 8 3.1. SIGNAL LAYOUT (TOP VIEW).................................................................................................... 8 3.2. PIN DESCRIPTION ..................................................................................................................... 9 4. MODULE SPECIFICATION ....................................................................................................... 13 4.1. GENERAL MODULE REQUIREMENTS AND OPERATION ............................................................ 13 4.1.1. Absolute Maximum Ratings (1) ............................................................................. 13 4.1.2. Recommended Operating Conditions ............................................................ 14 4.1.3. External Slow Clock Input (SLOW_CLK) ............................................................ 15 4.1.4. External Fast Clock Requirements (-40 to +85C) .......................................... 15 4.2. WLAN RF PERFORMANCE .................................................................................................... 17 4.2.1. WLAN 2.4-GHz Receiver Characteristics .......................................................... 17 4.2.2. WLAN 2.4-GHz Transmitter Power ....................................................................... 18 4.2.4. WLAN 5-GHz Transmitter Power (For WG7833/03 Only) ............................... 20 4.3. BLUETOOTH RF PERFORMANCE (FOR WG7833/31 ONLY) .................................................. 21 4.3.1. 4.3.2. 4.3.3. 4.3.5. 4.3.6. 4.3.7. 4.3.8. 4.3.9. BT Receiver Characteristics, In-Band Signals .................................................. 21 BT Receiver Characteristics General Blocking ............................................ 22 BT Receiver Characteristics BR, EDR Blocking Per Band ............................ 22 BT Transmitter, EDR .................................................................................................. 23 BT Modulation, BR ................................................................................................... 23 BT Modulation, EDR ................................................................................................ 24 BT BR, EDR Transceiver - Emissions ...................................................................... 24 BT BR Transceiver - Spurs........................................................................................ 25 Copyright JORJIN TECHNOLOGIES INC. 2015 Page 1 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 4.3.10. BT EDR Transceiver - Spurs ..................................................................................... 25 4.4. BT LE RF PERFORMANCE ........................................................................................................... 26 4.4.1. BT LE Receiver Characteristics, In-Band Signals ....................................................... 26 4.4.3. BT LE Transmitter Characteristics .............................................................................. 27 4.4.4. BT LE Modulation Characteristics .............................................................................. 27 4.4.6. BT LE Transceiver - Spurs ........................................................................................... 28 4.5. ANT PERFORMANCE .................................................................................................................. 28 4.5.1. ANT Receiver Characteristics, In-Band Signals .......................................................... 28 4.5.2. ANT Transmitter Characteristics ................................................................................. 28 4.6. POWER CONSUMPTION ....................................................................................................... 29 5. HOST INTERFACE TIMING CHARACTERISTICS .................................................................... 32 5.1. WLAN SDIO TRANSPORT LAYER ................................................................................................. 32 5.2. SDIO TIMING SPECIFICATIONS ..................................................................................................... 33 5.3. HCI UART SHARED TRANSPORT LAYERS FOR ALL FUNCTIONAL BLOCKS (EXCEPT WLAN) ....................... 35 5.4. UART TIMING SPECIFICATIONS .................................................................................................... 36 5.5. BLUETOOTH CODEC-PCM(AUDIO) TIMING SPECIFICATIONS .............................................................. 37 6. CLOCK AND POWER MANAGEMENT .................................................................................. 39 6.1. RESET-POWER-UP SYSTEM ......................................................................................................... 39 6.2. WLAN POWER-UP SEQUENCE .................................................................................................... 39 6.3. BLUETOOTH/BLE/ANT POWER-UP SEQUENCE .............................................................................. 40 7. REFERENCE SCHEMATIC ......................................................................................................... 41 7.1. MODULE REFERENCE DESIGN ...................................................................................................... 41 8. DESIGN RECOMMENDATIONS .............................................................................................. 42 8.1. DESIGN NOTE ON DEBUG PORT.................................................................................................... 42 8.2. MODULE LAYOUT RECOMMENDATIONS ......................................................................................... 42 9. PACKAGE INFORMATION ...................................................................................................... 44 9.1. MODULE MECHANICAL OUTLINE .................................................................................................. 44 9.2. ORDERING INFORMATION ........................................................................................................... 45 9.3. 9.4. PACKAGE MARKING ................................................................................................................... 46 PACKAGING .............................................................................................................................. 47 10. SMT AND BAKING RECOMMENDATION ......................................................................... 49 10.1. 10.2. BAKING RECOMMENDATION ............................................................................................. 49 SMT RECOMMENDATION .................................................................................................. 49 Copyright JORJIN TECHNOLOGIES INC. 2015 Page 2 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 HISTORY CHANGE ............................................................................................................... 50 11. Copyright JORJIN TECHNOLOGIES INC. 2015 Page 3 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 1. OVERVIEW WG7833/31/03/01-B0, a WiFi, BT, BLE SiP (system in package) module, is the most demanded design for mobile devices, Audio, Computer, PDA and embedded system applications with Wilink8 solution from TI. 1.1. Models Functional Blocks Model WLAN 2.4GHz WLAN 5GHz BT/BLE/ANT WG7833-B0 V V V 1.2. General Features
� WLAN, Bluetooth, BLE, ANT with Integrated RF Front-End Module (FEM), Power Amplifier (PA), and Power Management on a Single Module
� LGA106 pin package
� Dimension 12.8mm(L) x 12.0mm(W) x 1.63mm(H)
� Provides efficient direct connection to battery by employing several integrated switched mode power supplies (DC2DC).
� Seamless Integration with TI Sitara and Other Application Processors
� WLAN and BT/BLE/ANT cores are software and hardware compatible with prior WL127x and WL128x offerings, for smooth migration to device.
� Shared HCI transport for BT/BLE/ANT over UART and SDIO for WLAN.
� Temperature detection and compensation mechanism ensures minimal variation in RF performance over the entire temperature range.
� BT 4.0, BLE, ANT and all audio processing features work in parallel and include full coexistence with WLAN
� Operating temperature: 40C to 85C Copyright JORJIN TECHNOLOGIES INC. 2015 Page 4 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 2. FUNCTIONAL FEATURES 2.1. Module Block Diagram VBAT_IN VIO_IN SLOW CLK CLK_REQ_OUT FAST CLK 32.768KHz OSC 26MHz TCXO WLAN I/F: SDIO BT I/F: UART, PCM, I2S GPIOs, Debug WiLink8 Power Management
(5G only for WG7833/03-B0) WL 5G TX WL 5G RX SW BPF WLAN WLAN 2.4G SW BPF BT BT
(BT only for WG7833/31-B0) WG7833-B0 Figure 2-1. WG7833-B0 Block Diagram 2.2. Block Functional Feature 2.2.1. WLAN Features
�
Integrated 2.4 & 5G GHz Power Amplifier (PA) for WLAN solution
� WLAN Baseband Processor and RF transceiver Supporting IEEE Std 802.11a/b/g/n
� WLAN 2.4/5 GHz SISO (20/40 MHz channels) Copyright JORJIN TECHNOLOGIES INC. 2015 Page 5 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03
� Baseband Processor
� IEEE Std 802.11a/b/g/n data rates and IEEE Std 802.11n data rates with 20 or 40 MHz SISO.
�
Fully calibrated system. Production calibration not required.
� Medium Access Controller (MAC)
� Embedded ARM Central Processing Unit (CPU)
� Hardware-Based Encryption/Decryption using 64-, 128-, and 256-Bit WEP, TKIP or AES Keys,
�
Supports requirements for Wi-Fi Protected Access (WPA and WPA2.0) and IEEE Std 802.11i [includes hardware-accelerated Advanced Encryption Standard
(AES)]
� Designed to work with IEEE Std 802.1x
�
IEEE Std 802.11d,e,h,i,k,r PICS compliant.
� New advanced co-existence scheme with BT/BLE/ANT.
� 2.4/5 GHz Radio
�
Internal LNA and PA
� Supports: IEEE Std 802.11a, 802.11b, 802.11g and 802.11n
�
Supports 4 bit SDIO host interface, including high speed (HS) and V3 modes. 2.2.2. Bluetooth Features
�
�
Supports Bluetooth 4.0 as well as CSA2 Includes concurrent operation and built -in coexisting and prioritization handling of Bluetooth, BLE, ANT, audio processing and WLAN
� Dedicated Audio processor supporting on chip SBC encoding + A2DP:
� Assisted A2DP (A3DP) support - SBC encoding implemented internally
� Assisted WB-Speech (AWBS) support - modified SBC codec implemented internally 2.2.3. BLE Features
�
�
�
�
Fully compliant with BT4.0 BLE dual mode standard Support for all roles and role-combinations, mandatory as well as optional Supports up to 10 BLE connections Independent buffering for LE allows having large number of multiple connections without Copyright JORJIN TECHNOLOGIES INC. 2015 Page 6 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 affecting BR/EDR performance 2.2.4. ANT Features Fully compliant with all ANT Protocols:
� ANT solution optimized for the fitness and health use-cases Simple to complex network topologies Supports high-resolution proximity pairing
�
�
The ANT protocol has been designed to very power-efficient, yet is flexible enough to support various network topologies (point-to-point, star, 1-to-N, N-to-1) and data transfer modes
(broadcast, broadcast with acknowledge, mass data transfer). Each logical ANT channel can be independently configured for 1-way or 2-way operation Copyright JORJIN TECHNOLOGIES INC. 2015 Page 7 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 3. MODULE OUTLINE 3.1. Signal Layout (Top View) Figure 3-1 Device pins Copyright JORJIN TECHNOLOGIES INC. 2015 Page 8 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 3.2. Pin Description Pin No. Table 3-1. Pin Description Shut After Voltage Signal Name Type Down state Power Up(1) Level Description A1 GND GND Ground A2 WLAN_SDIO_D3 IO HiZ PU 1.8V WLAN SDIO Data bit 3. Changes state to PU at WL_EN or BT_EN assertion for card detects. Later disabled by software A3 WLAN_SDIO_CMD I/O A4 WLAN_SDIO_D2 A5 WLAN_SDIO_D0 A6 WLAN_SDIO_D1 IO IO IO HiZ HiZ HiZ HiZ HiZ HiZ HiZ HiZ during initialization. (2) 1.8V WLAN SDIO Command (2) 1.8V WLAN SDIO Data bit 2 (2) 1.8V WLAN SDIO Data bit 02) 1.8V WLAN SDIO Data bit 1 (2) A7 WLAN_SDIO_CLK IN HiZ HiZ 1.8V WLAN SDIO Clock. Must be driven by the host. A8 GND GND Ground A9 BT_HCI_CTS IN PU PU 1.8V A10 BT_HCI_RTS OUT PU PU 1.8V A11 BT_HCI_TX OUT PU PU 1.8V A12 BT_HCI_RX IN PU PU 1.8V UART CTS from host. NC if not used. UART RTS to host. NC if not used. UART TX to host. NC if not used. UART RX from host. NC if not used. A13 NC A14 NC A15 NC A16 GND A17 NC A18 GND GND GND NC NC NC Ground NC Ground Copyright JORJIN TECHNOLOGIES INC. 2015 Page 9 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 A19 VIO_IN POW PD PD 1.8V Connect to 1.8V external VIO A20 GND GND B1 NC B2 NC B3 GPIO11 B4 GPIO9 B5 GPIO10 B6 GPIO12 B7 NC B8 NC B9 NC B10 NC B11 NC B12 NC B13 NC B14 NC B15 NC B16 NC C1 GND C2 NC C3 NC I/O I/O I/O I/O GND PU PU PU PU PU PU PU PU Ground NC NC 1.8V Reserved for future use. NC if not used. 1.8V Reserved for future use. NC if not used. 1.8V Reserved for future use. NC if not used. 1.8V Reserved for future use. NC if not used. NC NC NC NC NC NC NC NC NC NC Ground NC NC C4 BT_UART_DEBUG OUT PU PU 1.8V Option: Bluetooth logger C5 NC NC C6 WLAN_UART_DBG OUT PU PU 1.8V Option: WLAN logger C7 GPIO1 I/O PD PD 1.8V C8 NC C9 TCXO_CLK_IN ANA WL_RS232_TX (when IRQ_WL = 1 at power up) NC TCXO clock input C10 WLAN_EN IN PD PD 1.8V Mode setting: High = enable C11 WLAN_IRQ OUT PD 0 1.8V SDIO available, interrupt out. Active high. To use WL_RS232_TX and RX lines, need to pull up with 10K resistor. C12 GND GND Ground Page 10 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 C13 GND C14 GND C15 GND C16 GND D1 GND D2 VBAT D3 NC D4 NC D5 NC D6 GND D7 NC D8 GND GND GND GND GND GND POW GND GND D9 PA_DC2DC_OUT POW Ground Ground Ground Ground Ground VBAT Power supply input, 2.9 to 4.8 V NC NC NC Ground NC Ground Internal DC2DC output D10 GPIO4 I/O PD PD 1.8V Reserved for future use. NC if not used. D11 GPIO2 I/O PD PD 1.8V WL_RS232_RX (when IRQ_WL = 1 at power up) D12 BT_EN In PD PD 1.8V Mode setting: High = enable D13 NC D14 NC D15 GND D16 GND D17 GND D18 GND D19 RF_ANT_WA D20 GND E1 GND E2 GND E3 GND E4 GND F1 GND F2 GND F3 GND F4 GND J1 GND J2 GND GND GND GND GND RF GND GND GND GND GND GND GND GND GND GND GND NC NC Ground Ground Ground Ground WLAN 5G RF Port Ground Ground Ground Ground Ground Ground Ground Ground Ground Ground Ground Page 11 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 J3 GND GND J4 NC J5 NC J6 NC J7 NC J8 NC J9 NC Ground NC NC NC NC NC NC J10 CLK_REQ_OUT OUT PD PD 1.8V TCXO clock request out J11 GND J12 GND J13 NC K1 GND K2 RF_ANT_BG K3 GND K4 GND K5 GND K6 GND GND GND GND RF GND GND GND GND Ground Ground NC Ground WLAN/BT 2.4G RF Port Ground Ground Ground Ground K7 BT_AUD_OUT OUT PD PD 1.8V K8 GND K9 EXT_32K K10 GND GND ANA GND K11 BT_AUD_IN IN PD PD 1.8V K12 BT_AUD_CLK OUT PD PD 1.8V K13 BT_AUD_FSYNC OUT PD PD 1.8V
(1) PU=pull up; PD=pull down.
(2) Host must provide PU for all non-CLK SDIO signals Bluetooth PCM/I2S Bus. Data out. NC if not used. Ground Input Sleep clock: 32.768 KHz Ground Bluetooth PCM/I2S Bus. Data in. NC if not used. Bluetooth PCM/I2S Bus. Clock. NC if not used. Bluetooth PCM/I2S Bus. Frame sync. NC if not used. Page 12 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 4. MODULE SPECIFICATION 4.1. General Module Requirements and Operation 4.1.1. Absolute Maximum Ratings (1) Parameter Value Units VBAT VIO Input voltage to Analog pins Input voltage limits (CLK_IN) Input voltage to all other pins Operating ambient temperature range Storage temperature range ESD Stress Voltage (4) Human Body Model (5) Charged Device Model (6)
-0.5 to 5.5 (2)
-0.5 to 2.1
-0.5 to 2.1
-0.5 to VDD_IO
-0.5 to (VDD_IO + 0.5V)
-40 to +85 (3)
-55 to +125
>1000
>250 V V V V V C C V V 1) Stresses beyond those listed under absolute maximum ratings may cause permanent damage to the device. These are stress ratings only and functional operation of the device at these or any other conditions beyond those indicated under operating conditions is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability. 2) 5.5V up to 10s cumulative in 7 years, 5V cumulative to 250s, 4.8V cumulative to 2.33 years - all includes charging dips and peaks. 3) Operating free-air temperature range. The device can be reliably operated for 7 years at ambient of 85C, assuming 25% active mode and 75% sleep mode (15,400 cumulative active power-on hours). 4) Electrostatic discharge (ESD) to measure device sensitivity/immunity to damage caused by electrostatic discharges into device. 5) Level listed is the passing level per ANSI/ESDA/JEDEC JS-001. JEDEC document JEP155 states that 500V HBM allows safe manufacturing with a standard ESD control process, and manufacturing with less than 500V HBM is possible if necessary precautions are taken. Pins listed as 1000V may actually have higher performance. 6) Level listed is the passing level per EIA-JEDEC JESD22-C101E. JEDEC document JEP157 states that 250 V CDM allows safe manufacturing with a standard ESD control process, and manufacturing with less than 250V CDM is possible if necessary precautions are taken. Pins listed as 250 V may actually have higher performance Page 13 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 4.1.2. Recommended Operating Conditions Parameter Condition Sym Min Max Units VBAT (1) DC supply range for all modes 1.8 V IO ring power supply voltage IO high-level input voltage IO low-level input voltage Enable inputs high-level input voltage Enable inputs low-level input voltage 2.9 4.8 V 1.62 1.95 VIH 0.65 x VDD_IO VDD_IO VIL 0 0.35 x VDD_IO VIH_EN 1.365 VDD_IO VIL_EN 0 0.4 High-level output voltage
@ 4 mA VOH VDD_IO -0.45 VDD_IO
@ 1 mA
@ 0.3 mA VDD_IO -0.112 VDD_IO VDD_IO -0.033 VDD_IO Low-level output voltage
@ 4 mA VOL
@ 1 mA
@ 0.09 mA 0 0 0 Input transitions time Tr/Tf from Tr/Tf 1 10% to 90% (Digital IO) (2) Output rise time from 10% to 90%
CL < 25 pF Tr
(Digital pins) (2) Output fall time from 10% to 90%
CL < 25 pF Tf
(Digital pins) (2) Ambient operating temperature Maximum power dissipation WLAN operation BT operation
-40 0.45 0.112 0.01 10 ns 5.3 ns 4.9 85 2.8 0.2 C W
(1) 4.8V is applicable only for 2.3 years (30% of the time). Otherwise, the maximum VBAT should not exceed 4.3V.
(2) Applies to all Digital lines except SDIO, UART, I2C, PCM and slow clock lines Page 14 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 4.1.3. External Slow Clock Input (SLOW_CLK) The supported digital slow clock is 32.768 kHz digital (square wave). Parameter Condition Sym Min. Typ. Max. Units Input slow clock Frequency Input slow clock accuracy WLAN, BT
(Initial + temp + aging) ANT Input Transition time Tr/Tf
-
10% to 90%
Frequency input duty Cycle Input Voltage Limits Square Wave, DC-coupled Input Impedance Input Capacitance Tr/Tf 32.768
+/-250
+/- 50 100 15 50 85 Vih Vil 0.65x VDD_IO 0 1 VDD_IO 0.35x VDD_IO 5 KHz ppm ns
%
Vpeak M pF 4.1.4. External Fast Clock Requirements (-40 to +85C) Parameter Frequency Condition Frequency Accuracy Short term (voltage and temp. effect) Long term (including aging) Input voltage limits Sine wave/ clipped sine wave, 2.4GHz WLAN
(TCXO_CLK_IN) ac-coupled 5GHz WLAN Input impedance Input resistance Input capacitance Power-up time(1) Phase noise 2.4GHz Measured at 1 KHz offset for 26MHz, 20MHz Measured at 10 KHz offset SISO Measured at 100 KHz offset Phase noise 2.4GHz Measured at 1 KHz offset for 26MHz, 40MHz Measured at 10 KHz offset SISO Measured at 100 KHz offset Min. Typ. Max. Unit 26 MHz ppm Vp-p K pF ms 20 20 1.4 1.4 5
-123.4 dBc/Hz
-133.4 dBc/Hz
-138.4 dBc/Hz
-128.4 dBc/Hz
-135.4 dBc/Hz
-139.9 dBc/Hz 0.2 0.8 20 2.5 Page 15 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 Phase noise 5GHz for Measured at 1 KHz offset 26MHz, 20/40 MHz Measured at 10 KHz offset SISO Measured at 100 KHz offset
-128.4 dBc/Hz
-145.4 dBc/Hz
-148.4 dBc/Hz
(1) Power-up time is calculated from the time CLK_REQ_OUT asserted till the time the TCXO_CLK amplitude is within voltage limit specified above and TCXO_CLK frequency is within 0.1 ppm of final steady state frequency. Page 16 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 4.2. WLAN RF Performance 4.2.1. WLAN 2.4-GHz Receiver Characteristics Parameter Condition Operation frequency range Min 2412 Typ Max Units 2484 MHz Sensitivity 20MHz Bandwidth At < 10% PER limit Max Input Level At < 10% PER limit 1 Mbps DSSS 2 Mbps DSSS 5.5 Mbps CCK 11 Mbps CCK 6 Mbps OFDM 9 Mbps OFDM 12 Mbps OFDM 18 Mbps OFDM 24 Mbps OFDM 36 Mbps OFDM 48 Mbps OFDM 54 Mbps OFDM MCS0 MM 4K MCS1 MM 4K MCS2 MM 4K MCS3 MM 4K MCS4 MM 4K MCS5 MM 4K MCS6 MM 4K MCS7 MM 4K MCS0 MM 4K 40MHz MCS7 MM 4K 40MHz OFDM(11g/n) CCK Adjacent channel rejection 2Mbps DSSS Sensitivity level +3dB for OFDM, Sensitivity 11Mbps CCK level +6dB for 11b LO Leakage PER Floor 54Mbps OFDM
-96.3
-93.4 dBm
-93.2
-90.5
-90.6
-87.9
-87.9
-85.7
-92
-89.2
-90.4
-87.7
-89.5
-86.8
-87.2
-84.5
-84.1
-81.4
-80.7
-78
-76.5
-73.8
-74.9
-72.4
-90.4
-87.4
-87.6
-84.9
-85.9
-83.2
-82.8
-80.1
-79.4
-76.7
-75.2
-72.5
-73.5
-70.8
-72.4
-69.7
-87.4
-82.7
-69
-65.5
-19
-4 42.7 37.9 2.0
-9 0
-80 1.0 dBm dBm dBm 2.0
%
Page 17 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 4.2.2. WLAN 2.4-GHz Transmitter Power Parameter Condition Min Typ Max Output Power
- Maximum RMS output power measured at 1dB from IEEE spectral mask or EVM 1 Mbps DSSS 2 Mbps DSSS 5.5 Mbps CCK 11 Mbps CCK 6 Mbps OFDM 9 Mbps OFDM 12 Mbps OFDM 18 Mbps OFDM 24 MbpS OFDM 36 Mbps OFDM 48 Mbps OFDM 54 Mbps OFDM MCS0 MM MCS1 MM MCS2 MM MCS3 MM MCS4 MM MCS5 MM MCS6 MM MCS7 MM MCS0 MM 40MHz MCS7 MM 40MHz Output power accuracy Output power resolution Operation frequency range Return loss Reference input impedance 15 15 15 15 15 15 15 15 14 13.1 12.4 11.8 13.9 13.9 13.9 13.9 13.3 12.4 11.8 10.6 12.3 10.2
-1.5 17 17 17 17 17 17 17 17 16.2 15.3 14.6 13.8 16.1 16.1 16.1 16.1 15.3 14.6 13.8 12.6 14.8 12.2
+1.5 0.125 dBm dB dB 2412 2484 MHz
-10 50 dB Page 18 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 4.2.3. WLAN 5-GHz Receiver Characteristics (For WG7833/03 Only) Parameter Condition Operation frequency range Min 4910 Typ Max Units 5825 MHz
-27 2
-91.5
-89.7
-88.9
-86.4
-83.3
-79.9
-75.6
-74.0
-89.8
-87.0
-85.2
-82.1
-78.7
-74.4
-72.8
-71.5
-87.0
-68.3
-9
-53 1.0
-87.6
-85.7
-84.9
-82.4
-79.3
-75.9
-71.6
-70.5
-85.4
-83.0
-81.2
-78.1
-74.7
-70.4
-68.8
-67.9
-81.8
-64.4 dBm dBm dBm dBm 2.0
%
Sensitivity
- 20MHz bandwidth.
- At < 10% PER limit 6 Mbps OFDM 9 Mbps OFDM 12 Mbps OFDM 18 Mbps OFDM 24 Mbps OFDM 36 Mbps OFDM 48 Mbps OFDM 54 Mbps OFDM MCS0 MM 4K MCS1 MM 4K MCS2 MM 4K MCS3 MM 4K MCS4 MM 4K MCS5 MM 4K MCS6 MM 4K MCS7 MM 4K MCS0 MM 4K 40MHz MCS7 MM 4K 40MHz Max Input Level, At < 10% PER limit OFDM(11a/n) Adjacent channel rejection 54Mbps OFDM Sensitivity level +3dB for OFDM LO Leakage PER Floor Page 19 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 4.2.4. WLAN 5-GHz Transmitter Power (For WG7833/03 Only) Parameter Condition Min Max Typ 16.8 16.8 16.8 16.8 15.7 15.0 14.2 13.4 16.4 16.4 16.4 16.4 15.0 14.2 13.4 12.4 15.9 11.6 14.7 14.7 14.7 14.7 14.1 13.4 12.6 11.6 14.4 14.4 14.4 14.4 13.2 12.6 11.6 10.7 13.0 9.7
-1.5 dBm dB dB
+1.5 0.125 4910 5825 MHz
-10 50 dB Output Power 6 Mbps OFDM
- Maximum RMS output power 9 Mbps OFDM measured at 1dB from IEEE spectral mask or EVM 12 Mbps OFDM 18 Mbps OFDM 24 MbpS OFDM 36 Mbps OFDM 48 Mbps OFDM 54 Mbps OFDM MCS0 MM MCS1 MM MCS2 MM MCS3 MM MCS4 MM MCS5 MM MCS6 MM MCS7 MM MCS0 MM 40MHz MCS7 MM 40MHz Output power accuracy Output power resolution Operation frequency range Return loss Reference input impedance Page 20 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 4.3. Bluetooth RF Performance (For WG7833/31 Only) 4.3.1. BT Receiver Characteristics, In-Band Signals Parameter Condition Min Typ Max BT Units BT BR, EDR operation frequency range BT BR, EDR channel spacing BT BR, EDR input impedance BT BR, EDR sensitivity (1) BR, BER = 0.1%
Dirty TX on EDR2, BER = 0.01%
EDR3, BER = 0.01%
BT EDR BER floor at sensitivity + 10 dB, dirty TX off (for 1,600,000 bits) EDR2 EDR3 BT BR, EDR maximum useable input power BR, BER = 0.1%
EDR2, BER = 0.1%
EDR3, BER = 0.1%
2402 2480 1 50
-92.0
-91.5
-84.5 1e-6 1e-6
-5.0
-10.0
-10.0 Spec MHz MHz
-70 dBm
-70
-70 1e-5 1e-5
-20 dBm
-20
-20
-39 dBm dB 11 13 21 0 0 5
-30
-30
-25
-20
-20
-13 BT BR intermodulation Level of interferers For n = 3, 4, and 5
-36.0
-30.0 BT BR, EDR C/I performance BR, Co-channel Numbers show wanted-signal to interfering-signal ratio. Smaller numbers indicate better C/I performances EDR, Co-channel EDR2 EDR3 BR, adjacent 1 MHz EDR, adjacent 1 MHz, EDR2
(image) EDR3
(Image frequency = -1MHz) BR, adjacent +2 MHz EDR, adjacent +2 MHz, EDR2 BR, adjacent -2 MHz EDR, adjacent
-2 MHz EDR3 EDR2 EDR3 8.0 9.5 16.5
-10.0
-10.0
-5.0
-38.0
-38.0
-38.0
-28.0
-28.0
-22.0 Page 21 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 BR, adjacent 3 MHz EDR, adjacent 3 EDR2 MHz BT BR, EDR RF return loss EDR3
-45.0
-45.0
-44.0
-10.0
-40
-40
-33 dB
(1) Sensitivity degradation up to -3dB may occur due to fast clock harmonics with dirty TX on. 4.3.2. BT Receiver Characteristics General Blocking Parameter Condition Min Typ BT spec Units Blocking performance over full range, 30-2000 MHz according to BT specification (1) 2000-2399 MHz 2484-3000 MHz 3-12.75 GHz dBm
-6
-6
-6
-6
-10
-27
-27
-10 1) Exceptions taken out of the total 24 allowed in the BT spec. 4.3.3. BT Receiver Characteristics BR, EDR Blocking Per Band Parameter Band Min Typ Units Blocking performance for various cellular 776-794 MHz (CDMA) bands Hopping on. Wanted signal: -3dB from sensitivity, with modulated continuous blocking signal. BER = 0.1% for BT BR, 0.01% for BT EDR. PER = 1%
824-849 MHz (GMSK) (1) 824-849 MHz (EDGE) (1) 824-849 MHz (CDMA, QPSK) (1) 880-915 MHz (GMSK) 880-915 MHz (EDGE) 1710-1785 MHz (GMSK) 1710-1785 MHz (EDGE) 1850-1910 MHz (GMSK) 1850-1910 MHz (EDGE) 1850-1910 MHz (CDMA, QPSK) 1850-1910 MHz (WCDMA, QPSK) 1920-1980 MHz (WCDMA, QPSK)
-12
-3
-11
-12
-14
-15
-4
-18
-18
-20
-20
-16
-17 dBm 1) Except for frequencies where [3 * F_BLOCKER] falls within the BT band (2400-2483.5 MHz) Page 22 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 4.3.4. BT Transmitter, BR Parameter Min Typ Max BT Spec Units VBAT >= 3V VBAT < 3V BR RF output power (1) BR Gain Control Range BR Power Control Step BR Adjacent Channel Power |M-N| = 2 (2) BR Adjacent Channel Power |M-N| > 2 (2) 2 12.5 7.0 30 5
-43.0
-48.0 8 dBm dB 2 to 8
-20 dBm
-40 1) Values reflect maximum power. Reduced power is available using a vendor-specific (VS) command. 2) Assumes 3dB insertion loss on external filter and traces 4.3.5. BT Transmitter, EDR Parameter Min Typ Max BT Spec Units EDR output power (1) EDR relative power EDR Gain Control Range EDR Power Control Step VBAT >= 3V VBAT < 3V EDR Adjacent Channel Power |M-N| = 1 (2) EDR Adjacent Channel Power |M-N| = 2 (2) EDR Adjacent Channel Power |M-N| > 2 (2)
-2 2 7 5 30 5
-36
-30
-42 1 8 dBm
-4 to +1 dB 2 to 8 dB dB
-26 dBc
-20 dBm
-40 1) Values reflect maximum power. Reduced power is available using a vendor-specific (VS) command. 2) Assumes 3dB insertion loss on external filter and traces. 4.3.6. BT Modulation, BR Parameter Condition(1) BR -20dB Bandwidth f1avg Mod data = 4-ones, 4-zeros: 111100001111... BR modulation f2max limit for characteristics at least 99.9% of all Mod data = 1010101... f2max f2avg / f1avg Performances BT Min Typ Max spec Units 925 160 130 88 995 1000 kHz 140 to 175
> 115 kHz kHz
> 80
%
Page 23 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 BR carrier frequency One slot packet drift Three and five slot packet BR drift rate lfk+5 fkl , k = 0 . max BR initial carrier frequency tolerance (2) f0 fTX 1) Performance figures at maximum power 2) This number is added on top of the reference clock frequency accuracy 4.3.7. BT Modulation, EDR
-25
-35
-25
+25
< 25 kHz 35 15
< 40 kHz
< 20 kHz/
50s 25
< 75 kHz Parameter (1) Condition Min Typ. Max BT spec Units EDR Carrier frequency stability EDR Initial Carrier Frequency Tolerance (2) EDR RMS DEVM EDR 99% DEVM EDR Peak DEVM EDR2 EDR3 EDR2 EDR3 EDR2 EDR3
-5
-25 4 4 9 9 5 25 30 20 10 75 20 13 30 20 35 25 kHz kHz
%
%
%
%
%
%
1) Performance figures at maximum power 2) This number is added on top of the reference clock frequency accuracy 4.3.8. BT BR, EDR Transceiver - Emissions Parameter (1) Condition (2) Performances Units BT out-of-band 746-768 MHz (CDMA) BR, EDR emission 869-894 MHz (WCDMA, GSM) 925-960 MHz (E-GSM) 1570-1580 MHz (GPS) 1598-1607 MHz (GLONASS) (3) 1805-1880 MHz (DCS, WCDMA) 1930-1990 MHz (PCS) Min Typ Max
-151
-149
-148
-145
-145
-141
-139 dBm/Hz dBm/Hz dBm/Hz dBm/Hz dBm/Hz dBm/Hz dBm/Hz Page 24 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 2110-2170 MHz (WCDMA) BR EDR BT harmonics 2nd harmonic 3rd harmonic 4th harmonic 1) Meets FCC and ETSI requirements with suitable external filter 2) Performance figures at maximum power 3) Except for frequencies that corresponds to 2*RF_FREQ/3 4.3.9. BT BR Transceiver - Spurs Parameter (1) Condition (2) BT out-of-band spurs 76-108 MHz (FM) BR 746-768 MHz (WCDMA) 869-894 MHz (WCDMA, GSM) 925-960 MHz (E-GSM) 1570-1580 MHz (GPS) 1598-1607 MHz (GLONASS) (3) 1805-1880 MHz (DCS, WCDMA) 1930-1990 MHz (PCS) 2110-2170 MHz (WCDMA) 1) Meets FCC and ETSI requirements with suitable external filter 2) Performance figures at maximum power 3) Except for frequencies that corresponds to 2*RF_FREQ/3 4.3.10. BT EDR Transceiver - Spurs
-134
-129 1.5
-4
-10 dBm/Hz dBm/Hz dBm dBm dBm Performances Units Min Typ Max
-77
-79
-77
-77
-72
-74
-72
-70
-59 dBm dBm dBm dBm dBm dBm dBm dBm dBm Parameter(1) Condition (2) Performances Units BT out-of-band spurs 76-108 MHz (FM) EDR 746-768 MHz (WCDMA) 869-894 MHz (WCDMA, GSM) 925-960 MHz (E-GSM) 1570-1580 MHz (GPS) Min Typ Max
-82
-87
-85
-84
-79 dBm dBm dBm dBm dBm Page 25 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 1598-1607 MHz (GLONASS) (3) 1805-1880 MHz (DCS, WCDMA) 1930-1990 MHz (PCS) 2110-2170 MHz (WCDMA)
-78
-76
-74
-63 dBm dBm dBm dBm 1) Meets FCC and ETSI requirements with suitable external filter 2) Performance figures at maximum power 3) Except for frequencies that corresponds to 2*RF_FREQ/3 4.4. BT LE RF Performance 4.4.1. BT LE Receiver Characteristics, In-Band Signals Parameter Condition (2) Min Typ Max BLE spec Units BT LE Operation frequency range BT LE Channel spacing BT LE Input impedance BT LE Sensitivity (1), Dirty Tx on BT LE Maximum useable input power BT LE Intermodulation characteristics Level of interferers. For n = 3, 4, 5 BT LE C/I performance Note:
LE, co-channel Numbers show wanted signal-to-interfering signal ratio. Smaller numbers indicate better C/I performance. Image = -1MHz LE, adjacent 1MHz LE, adjacent +2MHz LE, adjacent 2MHz LE, adjacent |3|MHz 2402
-5
-36 2 50
-93
-30 8
-5
-45
-22
-47 2480 12 0
-38
-15
-40 MHz MHz
-70 dBm
-10 dBm
-50 dBm dB 21 15
-17
-15
-27 1) Sensitivity degradation up to -3dB may occur due to fast clock harmonics. 2) BER of 0.1% corresponds to PER of 30.8% for a minimum of 1500 transmitted packets, according to BT LE test spec 4.4.2. BT LE Receiver Characteristics General Blocking Parameter Condition Min Typ Max BT LE Blocking performance over 302000MHz full range, according to LE specification (1) 20002399MHz 24843000MHz
-15
-15
-15 Unit BLE spec 30 dBm 35 35 Page 26 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 1) Exceptions taken out of the total 10 allowed for fbf_1, according to the BT LE Spec 312.75GHz
-15 30 4.4.3. BT LE Transmitter Characteristics Parameter Min Typ Max BT LE Unit BT LE RF output power (1) Vbat >= 3V Vbat < 3V BT LE Adjacent Channel Power |M-N| = 2 (2) BT LE Adjacent Channel Power |M-N| > 2 (2) 12.5 870
-51.0
-54.0 Spec 10 dBm 10 dBm 20 dBm 30 1) To reduce the maximum BLE power, use a VS command. The optional extra margin is offered to compensate for design losses, such as trace and filter losses, and to achieve the maximum allowed output power at system level. 2) Assumes 3dB insertion loss on external filter and traces 4.4.4. BT LE Modulation Characteristics Parameter Condition (1) Performances BT Min Typ Max Spec Units f1avg BT LE modulation Mod data =
4-ones, 4-zeros:
111100001111... characteristics f2max limit for at Mod data =
least 99.9% of all f2max 1010101... f2avg / f1avg BT LE carrier frequency drift lf0 fnl , n = 2,3 . K
-25 BT LE drift rate lf1 f0l and lfn fn-5l ,n = 6,7. K LE initial carrier frequency tolerance (2) fn fTX 1) Performance figures at maximum power
-25 2) This number is added on top of the reference clock frequency accuracy 250 215 90 225 to 275 kHz 185 kHz 80
%
25 50 kHz 15 20 kHz/
50s 25 100 kHz Page 27 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 4.4.5. BT LE Transceiver Emissions See Section 4.3.8, BT BR, EDR Transceiver Emissions. 4.4.6. BT LE Transceiver - Spurs See Section 4.3.9, BT BR Transceiver Spurs. 4.5. ANT Performance 4.5.1. ANT Receiver Characteristics, In-Band Signals Parameter Condition Min Typ Max Units ANT Operation frequency range ANT Channel spacing ANT Sensitivity 12.72% PER (1) 2402 2480 MHz 1
-85 MHz dBm 1) Translation from BER=0.1%, assuming packet is 136 bits ( not including preamble ) 4.5.2. ANT Transmitter Characteristics Same as Bluetooth BR Transmitter Characteristics Page 28 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 4.6. POWER CONSUMPTION 4.6.1. Shutdown and Sleep Currents Parameter Power Supply Current Shutdown mode All functions shut down. WLAN sleep mode BT sleep mode VBAT VIO VBAT VBAT 4.6.2. WLAN Power Currents Unit uA Typ 10 2 154 110 Parameter Conditions Typ (avg) - 25C Units LPM 2.4GHz RX LPM 2.4GHz RX search SISO20 2.4GHz RX search SISO40 5GHz RX search SISO20 5GHz RX search SISO40 2.4GHz RX 20M SISO 11CCK Receiver 2.4GHz RX 20M SISO 6OFDM 2.4GHz RX 20M SISO MCS7 2.4GHz RX 40MHz MCS7 5GHz RX 20MHz 6OFDM 5GHz RX 20MHz MCS7 5GHz RX 40MHz MCS7 2.4GHz TX 20M SISO 6OFDM 16.4dBm 2.4GHz TX 20M SISO 11CCK 16.5dBm 2.4GHz TX 20M SISO 54OFDM 13.1dBm 2.4GHz TX 20M SISO MCS7 12.2dBm Transmitter 2.4GHz TX 40M SISO MCS7 11.8dBm 5GHz TX 20M SISO 6OFDM 16.8dBm 5GHz TX 20M SISO 54OFDM 13.4dBm 5GHz TX 20M SISO MCS7 12.7dBm 5GHz TX 40M SISO MCS7 11.9dBm 43 48 53 54 58 50 55 59 71 62 67 79 285 273 247 238 243 366 329 324 332 mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA Page 29 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 4.6.3. Bluetooth Currents Current measurements are done at the following output power: BR at 12.5dBm, EDR at 7dBm. Use Case (1) BR Voice HV3 + sniff EDR Voice 2-EV3 no retrans. + sniff Sniff 1 attempt 1.28s EDR A2DP EDR2 (master). SBC high quality 345Kbs EDR A2DP EDR2 (master). MP3 high quality 192Kbs Full throughput ACL RX: RX-2DH5 (2) (3) Full throughput BR ACL TX: TX-DH5 (3) Full throughput EDR ACL TX: TX-2DH5 (3) Page or inquiry 1.28s/11.25ms P&I Scan (P=1.28/I=2.56) Typ 11.6 5.9 178 10.4 7.5 18 50 33 253 332 Units mA mA uA mA mA mA mA mA uA uA 1) BT role in all scenarios is Slave, except for A2DP 2) ACL RX has same current in all modulations 3) Full throughput assumed data transfer in one direction 4.6.4. Bluetooth LE Currents All current measurements are done at output power of 8dBm Use Case Typ Units Advertising, non-connectable (1) Advertising, discoverable (1) Scanning (2) Connected, master role, 1.28sec conn. Interval (3) Connected, slave role, 1.28sec conn. Interval (3) 131 143 266 124 132 uA uA uA uA uA 1) Advertising in all 3 channels, 1.28sec advertising interval, 15 Bytes advertise data. 2) Listening to a single frequency per window, 1.28sec scan interval, 11.25msec scan window. 3) Zero Slave connection latency Empty Tx/Rx LL packets. Page 30 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 4.6.5. ANT Currents Use Case Conditions ANT Rx message mode ANT Rx message mode ANT Rx message mode 250ms interval 500ms interval 1000ms interval Typ 360 220 150 Units uA uA uA Page 31 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 5. HOST INTERFACE TIMING CHARACTERISTICS The following table summarizes the Host Controller interface options. All interfaces operate independently. WLAN Shared HCI for all functional BT Voice/Audio blocks except WLAN WLAN HS SDIO Over UART BT PCM The device incorporates UART module dedicated to the BT shared-transport Host Controller Interface (HCI) transport layer. The HCI interface is used to transport commands, events and ACL between the Bluetooth device and its host using HCI data packets. This acts as a shared transport for all functional blocks except WLAN. 5.1. WLAN SDIO Transport Layer The SDIO is the host interface for WLAN. The interface between the host and the WG7835-T0 uses an SDIO interface and supports a maximum clock rate of 50MHz. The Device SDIO also supports the following features of the SDIO V3 specification:
� 4 bit data bus
�
Synchronous and Asynchronous In-Band-Interrupt
� Default and High-Speed (50MHz) timing
�
Sleep/wake commands Page 32 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 5.2. SDIO Timing Specifications 5.2.1. SDIO Switching Characteristics Default Rate Figure 5-1. SDIO default input timing Figure 5-2. SDIO default output timing Table 5-1. SDIO Default Timing Characteristics(1) PARAMETER(2) Fclock Clock frequency, CLK DC tTLH tTHL tISU Low/high duty cycle Rise time, CLK Fall time, CLK Setup me, input valid before CLK MIN MAX UNIT 0 40 3 26 60 10 10 MHz
%
ns ns ns Page 33 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 tIH Hold me, input valid aer CLK tODLY Delay me, CLK to output valid CI Capacitive load on outputs 2 2.5 14.8 15 ns ns pF
(1) To change the data out clock edge from the falling edge (default) to the rising edge, set the configuration bit.
(2) Parameter values reflect maximum clock frequency. 5.2.2. SDIO Switching Characteristics High Rate Figure 5-3. SDIO HS input timing Figure 5-4. SDIO HS output timing Page 34 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 Table 5-2. SDIO HS Timing Characteristics PARAMETER MIN MAX UNIT Fclock Clock frequency, CLK DC tTLH tTHL tISU tIH Low/high duty cycle Rise time, CLK Fall time, CLK Setup me, input valid before CLK Hold me, input valid aer CLK tODLY Delay me, CLK to output valid CI Capacitive load on outputs 0 40 3 2 2.5 50 60 3 3 14 10 MHz
%
ns ns ns ns ns pF 5.3. HCI UART Shared Transport Layers for All Functional Blocks (Except WLAN) The HCI UART supports most baud rates (including all PC rates) for all fast clock frequencies - up to a maximum of 4 Mbps. After power up the baud rate is set for 115.2 kbps, regardless of fast clock frequency. The baud rate can then be changed by using a VS command. The Device responds with a Command Complete Event (still at 115.2 kbps), after which the baud rate change occurs. HCI hardware includes the following features:
� Receiver detection of break, idle, framing, FIFO overflow and parity error conditions.
� Receiver Transmitter underflow detection.
� CTS/RTS hardware flow control.
� 4 wires (H4) The below table lists the UART default settings Table 5-3. UART Default Setting Parameter Value Bit Rate Data Length Stop Bit Parity 115.2 kbps 8 bits 1 None Page 35 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 5.3.1. UART 4-Wires Interface H4 The interface includes four signals: TXD, RXD, CTS and RTS. Flow control between the host and the Device is byte-wise by hardware. ( See Figure 5-5 ) Figure 5-5. HCI UART Connection When the UART RX buffer of the device passes the flow-control threshold, the buffer sets the UART_RTS signal high to stop transmission from the host. When the UART_CTS signal is set high, the device stops transmitting on the interface. If HCI_CTS is set high in the middle of transmitting a byte, the device finishes transmitting the byte and stops the transmission. 5.4. UART Timing Specifications Figure 5-6. UART Timing Diagram Table 5-4. UART Timing Characteristics Characteristic Baud rate Baud rate accuracy per byte Baud rate accuracy per bit CTS low to TX_DATA on Condition Symbol RX/TX RX/TX t3 Min 37.5
-2.5
-12.5 0 Typ Max Unit 2 4364 Kbps
+1.5
%
+12.5 %
us Page 36 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 CTS low to TX_DATA off Hardware flow control CTS High Pulse Width RTS low to RX_DATA on RTS high to RX_DATA off Interrupt set to 1/4 FIFO t4 t6 t1 t2 1 0 2 1 Byte bit us 16 Bytes STR-Start bit; D0..Dn - Data bits (LSB first); PAR - Parity bit (if used);
STP - Stop bit Figure 5-7. UART Data Frame 5.5. Bluetooth Codec-PCM(Audio) Timing Specifications Figure 5-8 shows the Bluetooth codec-PCM (audio) timing diagram. Table 5-5 lists the Bluetooth codec-PCM master timing characteristics. Table 5-6 lists the Bluetooth codec-PCM slave timing characteristics. Figure 5-8. PCM Interface Timing Table 5-5. Bluetooth Codec-PCM Master Timing Characteristics Parameter Cycle time High or low pulse width AUD_IN setup time AUD_IN hold time AUD_OUT propagation time AUD_FSYNC_OUT propagation time Capacitive loading on outputs Symbol Min Max Unit Tclk Tw tis tih top top Cl 166.67 (6.144MHz) 15625 (64 kHz) ns 35% of Tclk min 10.6 0 0 0 15 15 40 pF Page 37 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 Table 5-6. Bluetooth Codec-PCM Slave Timing Characteristics Parameter Cycle time High or low pulse width AUD_IN setup time AUD_IN hold time AUD_OUT propagation time AUD_FSYNC_OUT propagation time Capacitive loading on outputs Symbol Min Max Tclk Tw tis tih top top Cl 81 (12.288MHz) 35% of Tclk min 5 0 5 0 19 40 Unit ns pF Page 38 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 6. CLOCK AND POWER MANAGEMENT The slow clock is a free-running, 32.768 kHz clock supplied from an external clock source. The clock is connected to the RTC_CLK pin and is a digital square-wave signal in the range of 0 to 1.8V nominal 6.1. Reset-Power-Up System After VBAT and VIO are fed to the device and while BT_EN and WL_EN are deasserted (low), the device is in SHUTDOWN state, during which functional blocks, internal DC-DCs, and LDOs are disabled. The power supplied to the functional blocks is cut off. When one of the signals (BT_EN or WL_EN) are asserted (high), a power-on reset (POR) is performed. Stable slow clock, VIO, and VBAT are prerequisites for a successful POR. 6.2. WLAN Power-Up Sequence Figure 6-1 shows the WLAN power-up sequence. Figure 6-1. WLAN Power-Up Sequence Page 39 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 6.3. Bluetooth/BLE/ANT Power-Up Sequence Figure 6-2 shows the Bluetooth/BLE/ANT power-up sequence. Figure 6-2 Bluetooth/BLE/ANT power-up sequence Page 40 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 7. REFERENCE SCHEMATIC 7.1. Module Reference Design VIO_IN Must reserve PU cricuit for Debug. R1 NL_10K RES1005 WLAN_IRQ_1V8 WL_EN_1V8 R2 0R RES1005 C1 33pF CAP1005 TCXO1 TCXO/2016/26MHz TCXO-2.0X1.6 3 GND OUT VCC GND 2 VDD_TCXO_OUT 1 4 C2 0.1uF CAP1005 WL_RS232_TX TP9 TP1 TP2 1 1 1 For Logger N I _ K L C _ O X C T VBAT_IN C4 1uF CAP1005 TP3 TP4 1 1 R3 0R RES1005 BT_EN_1V8 WL_5G ANT (For WG7833/03 Only) ANTENNA CIRCUITS 50 ohms single ended 1 J1 U.FL-R-SMT-1(10) U.FL 3 2 C5 NL_10pF CAP1005 C3 10pF CAP1005 Reserved for RF test. Closed to Module. C6 10pF CAP1005 L1 NL IND1005 L2 NL IND1005 1 ANT1 2 0 1 D 4 _ O P G I X R _ 2 3 2 S R _ L W 1 1 D X R _ 2 3 2 S R _ L W
/
2 _ O P G I 1 C 2 C 3 C 4 C 5 C 6 C 7 C 8 C 9 C 0 1 C 1 1 C 2 1 C 3 1 C 4 1 C 5 1 C 6 1 C 1 D 2 D 3 D 4 D 5 D 6 D 7 D 8 D 9 D L N L N D N G L N N E _ N A L W Q R I _ N A L W N I _ K L C _ O X C T L N G U B E D _ T R A U _ T B X T _ 2 3 2 _ L W
/
1 O P G I G B D _ T R A U _ L W _ 3 O P G I D N G D N G D N G D N G D N G L N L N L N L N D N G D N G D N G N I _ T A B V T U O _ C D 2 C D _ A P U1 WG7833_03_31_01-B0 D01 Module E-12X12.8-0.6-TOP CLK_REQ_OUT_1833 J1 J2 J3 J4 J5 J6 J7 J8 J9 J10 J11 J12 J13 E1 E2 E3 E4 GND GND GND NL NL NL NL NL NL CLK_REQ_OUT GND GND NL GND GND GND GND 2 1 D 3 1 D 4 1 D 5 1 D 6 1 D 7 1 D 8 1 D 9 1 D 0 2 D L N L N D N G D N G D N G D N G N E _ T B D N G A _ T N A _ F R GND RF_ANT_BG GND GND GND GND BT_AUD_OUT GND SLOW_CLK GND BT_AUD_IN BT_AUD_CLK BT_AUD_FSY NC GND GND GND GND K1 K2 K3 K4 K5 K6 K7 K8 K9 K10 K11 K12 K13 F1 F2 F3 F4 D M C _ O I D S _ L W 3 D _ O I D S _ L W 2 D _ O I D S _ L W 0 D _ O I D S _ L W 1 D _ O I D S _ L W K L C _ O I D S _ L W D N G S T C _ I C H _ T B S T R _ I C H _ T B X T _ I C H _ T B X R _ I C H _ T B D N G L N L N L N D N G L N D N G I N _ O V I D N G 1 1 O P G I I 9 O P G 0 1 O P G I 2 1 O 1 P G L N L N L N L N L N L N L N L N L N L N L N L N 1 A 2 A 3 A 4 A 5 A 6 A 7 A 8 A 9 A 0 1 A 1 1 A 2 1 A 3 1 A 4 1 A 5 1 A 6 1 A 7 1 A 8 1 A 9 1 A 0 2 A 1 B 2 B 3 B 4 B 5 B 6 B 7 B 8 B 9 B 0 1 B 1 1 B 2 1 B 3 1 B 4 1 B 5 1 B 6 1 B WL/BT_2.4G ANT Pi-Circuit for Antenna matching. 1 J2 U.FL-R-SMT-1(10) U.FL 3 2 C10 NL_10pF CAP1005 C11 10pF CAP1005 Reserved for RF test. Closed to Module. C12 10pF CAP1005 L3 NL IND1005 L4 NL IND1005 1 ANT2 2 R4 0R RES1005 BT_PCM_AUD_OUT Pi-Circuit for Antenna matching. EXT_32K For BT (WG7833/31) HOST_SLOWCLK_1V8 R7 R8 0R RES1005 BT_PCM_AUD_IN 0R RES1005 BT_PCM_AUD_CLK R10 0R RES1005 BT_PCM_AUD_FSY NC For BT (WG7833/31) R5 0R RES1005 R9 0R RES1005 VIO_IN OSC1 OSC/3225/32.768kHz 3 1 OUT EN 2 GND VCC 4 C16 0.1uF CAP1005 32.768KHz source select VDD_TCXO_OUT 5 4 VBAT_IN CLK_REQ_OUT_1833 U2 TPS73618DBV SOT-23-5 1 IN 3 2 EN GND OUT NR/FB VIO_IN C17 0.1uF CAP1005 SDIO_D3_1V8 R11 0R RES1005 SDIO_CMD_1V8 R12 0R RES1005 SDIO_D2_1V8 SDIO_D0_1V8 SDIO_D1_1V8 R14 0R RES1005 R15 0R RES1005 R16 0R RES1005 SDIO_CLK_1V8 R18 0R RES1005 For RTTT test BD_HCI_CTS_1V8 BD_HCI_RTS_1V8 BD_HCI_TX_1V8 BD_HCI_RX_1V8 R19 R20 R21 R22 0R RES1005 0R RES1005 0R RES1005 0R RES1005 For BT (WG7833/31) WiFi SDIO Matching Circuit In green circle is a necessary part
** It's recommended to reserve SDID matching circuits and keep them close to module for signal optimization
** The six traces from Module to Host must be treated like a bus. The bus length shall be as short as possible and every trace length must be the same as the others. Enough space above 2 time trace width or ground shielding between trace and trace will be benefit to make sure signal quality, especially for SDIO_CLK trace. Besides, please remember to keep them away from the other digital or analog signal traces. To add ground shielding to around the buses will be helpful.
** SDIO lines should be held high by the host
** All test point must reserved for test C7 NL CAP1005 C8 NL CAP1005 C9 NL CAP1005 C13 NL CAP1005 C14 NL CAP1005 C15 NL CAP1005 SDIO_D0_1V8 SDIO_D1_1V8 SDIO_D2_1V8 SDIO_D3_1V8 SDIO_CMD_1V8 SDIO_CLK_1V8 C18 0.1uF CAP1005 C22 10nF CAP1005 C19 10uF CAP2012 C20 0.1uF CAP1005 Boot Conditions VBAT_IN: 2.9~4.8V => 3.7V TYP VIO_IN: 1.62~1.95V => 1.8V TYP Slow Clock: 32.768KHz for module boot and deep sleep Scheme Brief WiFi Interface: SDIO Fast Clock:
External TCXO 26MHz Slow Clock: 32.768KHz Figure 7-1 Module Reference Schematic Page 41 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 8. DESIGN RECOMMENDATIONS 8.1. Design Note on Debug Port
� Pin# C6, C4 serve as WLAN and BT debug port, respectively. So test points for these two signals should be reserved for debugging purpose.
� Pin# C11 (WLAN_IRQ) needs to be pulled high via 10Kohm and use Pin# D11, C7
(WL_RS232_RX, WL_RS232_TX) as hardware interface to communicate with system platform and TI RTTT test utility for WLAN RF performance test, debug and manufacturing application. 8.2. Module Layout Recommendations Follow these module layout recommendations:
� Digital Signals Layout
� SDIO signals traces (CMD, D0, D1, D2 and D3) should be routed in parallel to each other and as short as possible. (Less than 12cm) Besides, every trace length must be the same as the others.
� Enough space above 1.5 time trace width or ground shielding between trace and trace will be benefit to make sure signal quality, especially for SDIO_CLK trace. Remember to keep them away from the other digital or analog signal traces. Adding ground shielding around these bus is recommended.
� Route trace of SDIO_CLK at Top layer without vias.
� SDIO Clock, Audio Clock (PCM_AUD_CLK), these digital clock signals are a source of noise. Keep the traces of these signals as short as possible. Whenever possible, maintain a clearance around them.
� BT_AUD signals should be rounted in the same group and its better to rout them at the same layer or confirm them referring to the same reference plane.
� RF Trace & Antenna
� Keep 50ohm trace impedance.
� Move all the high-speed traces and components far away from the antenna.
� Check antenna vendor for the layout guideline and clearance.
� Power Trace
� Power trace for VBAT should be 20mil wide. 1.8V trace should be 15mil wide, at least. Page 42 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03
� Isolate different power traces with Ground plane
� Ground
� Having a complete Ground and more GND vias under module in layer1 for system stable and thermal dissipation.
� Have a complete Ground pour in layer 2 for thermal dissipation.
� Increase the GND pour in the 1st layer, move all the traces from the 1st layer to the inner layers if possible.
� Move GND vias close to the pad.
� Clocks
� To avoid adding noise to the clock signal, keep the primary clock away from fast digital switching lines and power traces.
� It is preferable to keep all clocks between the ground/power layers.
� Primary TCXO placement
- To reduce clock drift, place the TCXO far from a heat source on the board.
- For better thermal mass, ensure good grounding for the TCXO.
- If the TCXO cannot be placed far from a heat source, add a scratch in the ground layers to isolate the heat spreading toward the TCXO Primary TCXO placement:
� To reduce clock drift, place the TCXO far from a heat source on the board.
� For better thermal mass, ensure good grounding for the TCXO.
� If the TCXO cannot be placed far from a heat source, add a scratch in the ground layers to isolate the heat spreading toward the TCXO Page 43 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 9. PACKAGE INFORMATION 9.1. Module Mechanical Outline 12.80.1 mm 1.630.1 mm 12.00.1 mm Figure 9-1. Module mechanical outline Page 44 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 Figure 9-2. Module pad dimensions
*We recommend adopting the same dimensions listed above for building PCB footprint.
** Pad tolerance as +/- 30um 9.2. Ordering Information Part number:
WG7833-B0 Page 45 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 9.3. Package Marking PIN-1 Marking Figure 9-3. Package Marking Date Code: YYWWSSFAX YY = Digit of the year, ex: 2011=11 WW = Week (01~52) SS = Serial number from 01 ~99 match to manufactures lot number
= Reserve for internal use
= Module version from A to Z
= Chip version F A X Page 46 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 9.4. Packaging 9.4.1. Tape Specification
<Reel : 1.8K pcs per reel> <Pizza box : 1 reel per pizza box>
Page 47 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03
<Carton : 5 pizza boxes per carton> Product label Page 48 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 10. SMT AND BAKING RECOMMENDATION 10.1. Baking Recommendation
� Baking condition
-
-
Follow MSL Level 4 to do baking process. After bag is opened, devices that will be subjected to reflow solder or other high temperature process must be a) Mounted within 72 hours of factory conditions <30C/60% RH, or b) Stored at <10% RH.
-
Devices require bake, before mounting, if Humidity Indicator Card reads >10%
If baking is required, Devices may be baked for 8 hrs. at 125 C. 10.2. SMT Recommendation
� Recommended Reflow profile H No. Item Temperature (C) Time (sec) 1 2 3 Pre-heat Soldering D1: 140 ~ D2: 200 T1: 80 ~ 120 D2: = 220 T2: 60 +/- 10 Peak-Temp. D3: 250 C max Page 49 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 Note: (1) Reflow soldering is recommended two times maximum.
(2) Add Nitrogen while Reflow process SMT solder ability will be better.
� Stencil thickness 0.1~ 0.13 mm (Recommended)
� Soldering paste (without Pb) Recommended SENJU N705-GRN3360-K2-V can get better soldering effects. 11. HISTORY CHANGE Revision Date Description R 0.1 R 0.2 2014/08/28 New Released 2014/09/29 Modify the module thickness from 1.70.05 mm to 1.630.1 mm Modify the package marking. R 0.3 2015/07/30 Add FCC/NCC WARING STATEMENT Page 50 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 FCC WARING STATEMENT 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. You are cautioned that changes or modifications not expressly approved by the party responsible for compliance could void your authority to operate the equipment. 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. FCC RF Radiation Exposure Statement:
1. This Transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. 2. This equipment complies with FCC RF radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with a minimum distance of 20 centimeters between the radiator and your body. According to FCC 15.407(e), the device is intended to operate in the frequency band of 5.15GHz to 5.25GHz under all conditions of normal operation. Normal operation of this device is restricted to indoor used only to reduce any potential for harmful interference to co-channel MSS operations. Information to OEM integrator The OEM integrator has to be aware not to provide information to the end user regarding how to Page 51 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 install or remove this RF module in the user manual of the end product. The user manual which is provided by OEM integrators for end users must include the following information in a prominent location. 1. To comply with FCC RF exposure compliance requirements, the antenna used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co- located or operating in conjunction with any other antenna or transmitter, except in accordance with FCC multi-transmitter product transmitter product procedures. 2. Only those antennas with same type and lesser gain filed under this FCC ID number can be used with this device. 3. The regulatory label on the final system must include the statement: Contains FCC ID:
WS2-WG7833B0 . 4. The final system integrator must ensure there is no instruction provided in the user manual or customer documentation indicating how to install or remove the transmitter module except such device has implemented two-ways authentication between module and the host system. 5. If the end product integrating this module is going to be operated in 5.15 ~5.25GHz frequency range, the warning statement in the user manual of the end product should include the restriction of operating this device in indoor could void the users authority to operate the equipment. Page 52 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL Doc No: WG7833-B0-DTS-R03 NCC WARING STATEMENT Article 12 Without permission, any company, firm or user shall not alter the frequency, increase the power, or change the characteristics and functions of the original design of the certified lower power frequency electric machinery. Article 14 The application of low power frequency electric machineries shall not affect the navigation safety nor interfere a legal communication, if an interference is found, the service will be suspended until improvement is made and the interference no longer exists. Page 53 Copyright JORJIN TECHNOLOGIES INC. 2015 http://WWW.JORJIN.COM.TW CONFIDENTIAL