ol 20 as 22 .w-07 an -2 g_1 2 th :34 un :4 de7 A rc M omCS mT .c o m Empowering Every IoT Device with Our Technology ni Datasheet ch Thundercomm TurboX C40x SOM Trande name:TurboX, Model: TurboX C405-D Rev. V2.3.2 Jun 01, 2022 DN: tc-i-13123.
Thundercomm TurboX C40x SOM Datasheet Revision History Version Date V0.1 2019-11-01 V0.2 2020-02-01 V0.3 2020-02-06 V0.5 2020-02-20 Update 3.16.2 BT Performance V0.6 2020-02-26 Update 3.16.2 BT Performance V0.7 2020-03-16 Update in 5.2 Package dimensions V0.8 2020-03-27 Update SDC2 performance description V0.9 2020-09-16 Correct the description error of the Bluetooth version. V1.0 2020-10-15 V1.
Thundercomm TurboX C40x SOM Datasheet 2022-06-01 Remove weight information from Chapter 1. Overview. Add a note in 1.6. Module laser marking. Add new section 1.7. SMT assembly guide. Update function description for C27, D5 and D6 in Table 2-2. Pin List. Update GND pin location in Table 2-3. Power supply definition. Update description in 2.3.10 SDIO interface. Remove TX, RX, CTS_N and RFR_N from description of BLSP Number 4 in Table 2-16. BLSP interface-1 definition. Update Table 2-19.
Thundercomm TurboX C40x SOM Datasheet ni ch ol 20 as 22 .w-07 an -2 g_1 2 th :34 un :4 de7 A rc M omCS mT .c o Table 1-1. Key features and performance of TurboX C40x SOM Table 1-2. Module laser marking description Table 1-3. TurboX C40x configuration Table 2-1. Interfaces parameter definitions Table 2-2. Pin List Table 2-3. Power supply definition Table 2-4. RGMII interface definition Table 2-5. SPDIF interface definition Table 2-6. SLIMBUS interface definition Table 2-7.
Thundercomm TurboX C40x SOM Datasheet ni ch ol 20 as 22 .w-07 an -2 g_1 2 th :34 un :4 de7 A rc M omCS mT .c o m Table 3-21. MIPI DSI standards and exceptions Table 3-22. Power Consumption Table 3-23. WCN3999 2.4G Wi-Fi performance Table 3-24. WCN3999 5.8G Wi-Fi performance Table 3-25. WCN3980 2.4G Wi-Fi performance Table 3-26. WCN3980 5.8G Wi-Fi performance Table 3-27. WCN3999 2.4G Bluetooth performance Table 3-28. WCN3980 2.4G Bluetooth performance Copyright© 2022 Thundercomm Technology Co., Ltd.
Thundercomm TurboX C40x SOM Datasheet About This Document ni ch ol 20 as 22 .w-07 an -2 g_1 2 th :34 un :4 de7 A rc M omCS mT .c o m ▪ Illustrations in this documentation might look different from your product and are thus for reference only ▪ Depending on the model, some optional accessories, features, and software programs might not be available on your device. ▪ Depending on the version of operating systems and programs, some user interface instructions might not be applicable to your device.
Thundercomm TurboX C40x SOM Datasheet Table of Contents Chapter 1. Overview .......................................................................................................... - 3 - 1.1. Key features...................................................................................................................................... - 3 - 1.2. Hardware block diagram .................................................................................................................. - 5 - 1.3.
Thundercomm TurboX C40x SOM Datasheet Notices ............................................................................................................ - 38 - Appendix 2. Trademarks ..................................................................................................... - 40 - ni ch ol 20 as 22 .w-07 an -2 g_1 2 th :34 un :4 de7 A rc M omCS mT .c o m Appendix 1.
Thundercomm TurboX C40x SOM Datasheet Chapter 1. Overview TurboX C40x is a high-level performance intelligent module, integrating Linux system, based on Qualcomm QCS40x processor. It includes a 64-bit Arm Cortex‑A53 qual-core (dual-core for C403) 1.4 GHz application processor, two Qualcomm® Hexagon™ QDSP6 v66 with Low Power Island and Voice accelerators. NOTE: “TurboX” referred to herein is the English text of our registered trademark . TurboX C40x integrated 2 × 2 WCN3999 (or 1 × 1 WCN3980) WLAN 802.
Thundercomm TurboX C40x SOM Datasheet Wireless connectivity WLAN 2.4G/5G, support 802.11 a/b/g/n/ac Support SoAP mode Bluetooth Support Bluetooth 5.x + HS BLE Backwards compatible with Bluetooth 1.2, 2.X + enhanced data rate. Connectivity USB One USB 2.0 high-speed and one USB 3.0 super-speed. PCIe 1x PCIe, PCIe v2 PHY and 2.1 controller. Ethernet RGMI 1x Ethernet RGMII. SDIO 4-bit, SD 3.0. SDC2 is Dual-V. SD/MMC card, eMMC NAND, eSD/eMMC boot.
Thundercomm TurboX C40x SOM Datasheet 1.2. Hardware block diagram N/A.
Thundercomm TurboX C40x SOM Datasheet 1.3. Mechanical size Size: 33.8mm x 33.8mm x 2.6mm Figure 1-2. Top View Figure 1-3. Side View Figure 1-4. Bottom View ol 20 as 22 .w-07 an -2 g_1 2 th :34 un :4 de7 A rc M omCS mT .c o m 1.4. Package dimensions ni ch Figure 1-5.
Thundercomm TurboX C40x SOM Datasheet 1.5. Stencil design and aperture To supply sufficient soldering paste and keep reliable soldering joints, add the thickness of stencil partly on the top surface. The stencil aperture for single sheet cannot be greater than 3.0mm×4.0mm and the exceeded part should be divided into smaller apertures with applicable shelves. A clearance of over 2.0mm should be kept between the outward end of the aperture and the component if there are components around the module.
Thundercomm TurboX C40x SOM Datasheet 1.6. Module laser marking m Figure 1-7. C40x SOM Module Laser Marking 1. 2. 3. 4. ol 20 as 22 .w-07 an -2 g_1 2 th :34 un :4 de7 A rc M omCS mT .c o Table 1-2. Module laser marking description Company name/logo SOM brand: TurboX PCBA version Certificate information 5. 6. 7. 8. NOTE: Product number Serial number Eco-mark QR code Figure 1-7 is for reference only and may vary with the specific module.
Thundercomm TurboX C40x SOM Datasheet Chapter 2. Interfaces Description This chapter introduces all the interfaces definition, purpose to guide developer easy to design and verification on TurboX C40x SOM module. 2.1. Interfaces parameter definitions Table 2-1. Interfaces parameter definitions Symbol Description Analog input AO Analog output B Bidirectional digital with CMOS input DI Digital input (CMOS) DSI Supply voltage for MIPI_DSI I/Os; tied to VDD_MIPI (1.
Thundercomm TurboX C40x SOM Datasheet ol 20 as 22 .w-07 an -2 g_1 2 th :34 un :4 de7 A rc M omCS mT .c o m 2.2. Pin description Figure 2-1 TurboX C40x PIN Map (Top View) Table 2-2. Pin List Pad# Function Voltage Type Function description MIPI display serial interface 0 clock negative. For TurboX C404 and C403: do not connect. MIPI display serial interface 0 clock positive. For TurboX C404 and C403: do not connect.
Thundercomm TurboX C40x SOM Datasheet Voltage Type 17 GPIO_34 1.8V Can be configured as GPIO 18 GND - - - 19 SPDIF_RX_COAX_RCA - DI SPDIF receive port for electrical input 20 SPDIF_RX_COAX_EP - DI SPDIF receive port for optical input 21 GND - - - 22 GPIO_26 1.8V IO Can be configured as GPIO 23 GPIO_27 1.8V IO Can be configured as GPIO 24 GPIO_28 1.8V IO Can be configured as GPIO 25 GPIO_29 1.8V IO Can be configured as GPIO 26 GND - - - 27 GPIO_39 1.
Thundercomm TurboX C40x SOM Datasheet Pad# Function Voltage Type Function description GPIO_30 1.8V IO Can be configured as GPIO 65 GPIO_31 1.8V IO Can be configured as GPIO 66 GPIO_32 1.8V IO Can be configured as GPIO 67 GPIO_33 1.8V IO Can be configured as GPIO 68 GND - - - 69 GPIO_37 1.8V IO Can be configured as GPIO 70 GPIO_38 1.8V IO Can be configured as GPIO 71 GND - - - 72 GND - - - 73 GND - - - 74 VPH_PWR 3.
Thundercomm TurboX C40x SOM Datasheet Function Voltage Type Function description 112 GPIO_43 1.8V IO Can be configured as GPIO 113 GPIO_44 1.8V IO Can be configured as GPIO 114 GPIO_45 1.8V IO Can be configured as GPIO 115 GPIO_46 1.8V IO Can be configured as GPIO 116 GND - - - 117 GPIO_50 1.8V IO Can be configured as GPIO 118 GPIO_49 1.8V IO Can be configured as GPIO 119 GPIO_48 1.8V IO Can be configured as GPIO 120 GPIO_47 1.
Thundercomm TurboX C40x SOM Datasheet Function Voltage Type Function description HDMI clock negative. For TurboX C404 and C430 do not connect. HDMI TMDS data 0 negative. For TurboX C404 and C430: do not connect. HDMI_TCLK_M - - B8 HDMI_TX0_M - - B9 PCIE0_RX_P - DI PCIE receiver plus B10 USB_SS_TX_P - DO USB 3.0 transmitter differential pair plus B11 USB_SS_RX_M - DI USB 3.
Thundercomm TurboX C40x SOM Datasheet Pad# Function Voltage Type Function description GND - - - C26 GPIO_17 1.8V DO MSM_UART_TX C27 GPIO_19 1.8V IO Can be configured as GPIO C28 GND - - - C29 GPIO_118 1.8V IO Can be configured as GPIO D1 PA_THERM1 - AI ADC for external temperature sensor D2 SLEEP_CLK 1.8V DO 32.
Thundercomm TurboX C40x SOM Datasheet Function Voltage Type Function description GPIO_104 1.8V IO Can be configured as GPIO E16 GPIO_105 1.8V IO Can be configured as GPIO E17 GPIO_106 1.8V IO Can be configured as GPIO E18 GPIO_107 1.8V IO Can be configured as GPIO E19 GPIO_108 1.8V IO Can be configured as GPIO E20 GPIO_109 1.8V IO Can be configured as GPIO E21 GND - - - E22 GND - - - E23 LPI_GPIO_6 1.8V IO Can be configured as GPIO E24 LPI_GPIO_7 1.
Thundercomm TurboX C40x SOM Datasheet 2.3. Interfaces detail description 2.3.1. Power supply interface Below table describes all interfaces of SOM Power Supply. For the detail parameter request, please refer the chapter on Electrical specifications. Table 2-3. Power supply definition Pin Name PIN Location Type Description 74,75,76,80,81,82,83,87,88,89 PI Power supply input for SOM all operations. VREG_L6_1P8 90 PO Low voltage switch supply output 1.
Thundercomm TurboX C40x SOM Datasheet 2.3.3. SPDIF interface The SOM has a digital audio dedicated interface SPDIF. It’s an input port only, and receiving audio signals in SPDIF format. Table 2-5. SPDIF interface definition Pin Name PIN Location Voltage Type Description Notes SPDIF_RX_COAX_RCA 19 - DI SPDIF receive port for electrical input SPDIF_RX_COAX_EP 20 - DI SPDIF receive port for optical input QCS403 not support 2.3.4.
Thundercomm TurboX C40x SOM Datasheet Table 2-7. I2S interface definition PIN Location Voltage Type Description 110 1.8V DO I2S 1 SCK GPIO_88 109 1.8V DO I2S 1 WS GPIO_89 108 1.8V IO I2S 1 Data0 GPIO_90 107 1.8V IO I2S 1 Data1 GPIO_91 106 1.8V IO I2S 1 Data2 GPIO_92 105 1.8V IO I2S 1 Data3 GPIO_93 104 1.8V IO I2S 1 Data4 GPIO_94 103 1.8V IO I2S 1 Data5 GPIO_95 102 1.8V IO I2S 1 Data6 GPIO_96 101 1.8V IO I2S 1 Data7 GPIO_97 43 1.
Thundercomm TurboX C40x SOM Datasheet Table 2-9. DMIC interface definition Pin Name PIN Location Voltage Type Description LPI_GPIO_8 E26 1.8V DO Digital MIC0/1 clock LPI_GPIO_9 E27 1.8V IO Digital MIC0/1 data LPI_GPIO_10 E28 1.8V DO Digital MIC2/3 clock LPI_GPIO_11 41 1.8V IO Digital MIC2/3 data LPI_GPIO_12 40 1.8V DO Digital MIC4/5 clock LPI_GPIO_13 39 1.8V IO Digital MIC4/5 data LPI_GPIO_14 38 1.8V DO Digital MIC6/7 clock LPI_GPIO_15 37 1.
Thundercomm TurboX C40x SOM Datasheet 2.3.7. MIPI DSI interface The SOM supports MIPI of display, and can be up to FHD 30 FPS. This is one 4-lane MIPI DSI port, and supported only for TurboX C405. Table 2-12.
Thundercomm TurboX C40x SOM Datasheet 2.3.9. JTAG interface The SOM has a JTAG interface for debug. Table 2-14. JTAG interface definition Pin Name PIN Location Voltage Type Description Notes JTAG_SRST_N E33 - DI,PU JTAG reset for debug JTAG_TCK E34 - DI,PU JTAG clock input JTAG_TDI E35 - DI,PU JTAG data input JTAG_TDO E36 - - JTAG data output JTAG_TMS E37 - B,PU JTAG mode-select input JTAG_TRST_N E38 - DI,PD JTAG reset QCS_RESIN_N C2 1.
Thundercomm TurboX C40x SOM Datasheet 2.3.11. BLSP interface These GPIOs are available as BAM-based low-speed peripheral (BLSP) interface ports that can be configured for UART, SPI, or I2C operation. I2C is a two-wire bus that can be routed to multiple devices; each line of each bus is supplemented by a 2.2kΩ pull-up resistor. 2-wire UART TX/Rx and I2C SDA/SCL ports can be used simultaneously. Table 2-16.
Thundercomm TurboX C40x SOM Datasheet Figure 2-3. Power on Signal Table 2-18. Power on interface definition Pin Name PIN Location Voltage Type Description Notes KPDPWR_N C6 V_INT DI Power-on trigger, level trigger (active low) PON_1 C1 1.17V - 4.2V DI Level-high triggered power-on input (keep high) 2.3.13. Reset interface ol 20 as 22 .w-07 an -2 g_1 2 th :34 un :4 de7 A rc M omCS mT .c o m Three stages are available for resetting.
Thundercomm TurboX C40x SOM Datasheet 2.3.14. Boot configuration interface Configure fuses or BOOT_CONFIG pins. BOOT_CONFIG pins provide flexibility during product development. Fuses should be blown for production devices. BOOT_CONFIG [3:1] is MSB-aligned with Fast_Boot [2:0]. Table 2-20. Boot Configurations BOOT_CONFIG[3:1] Boot Options 0b000 Try SDC1 --> SDC2 --> USB2.0 0b001 Try SDC2 --> SDC1 0b010 Try SDC1 0b011 Try USB2.
Thundercomm TurboX C40x SOM Datasheet Figure 2-4. Power on Signal Other boot configuration bits are listed in the table below, and do not have pull up on these IOs also. Table 2-22.
Thundercomm TurboX C40x SOM Datasheet 2.3.17. Sleep clock The sleep-clock output from PMS405, and it is generated following ways: Calibrated low-frequency RC oscillator, periodically uses the 38.4 MHz XO signal for calibration, achieving accuracy suitable for the real-time clock. Using the 38.4 MHz XO circuit and dividing its output by 1172 to create a 32.7645 KHz signal. This signal is used as the start-up sleep clock. Table 2-25.
Thundercomm TurboX C40x SOM Datasheet Chapter 3. Electrical Characteristics 3.1. Absolute maximum ratings The SOM needs to be designed in the operating conditions which is shown as below table beyond its absolute maximum ratings may damage the device. Table 3-1. Absolute rating condition Parameter Min Max Units Input power voltage Voltage on any input or output pin -0.5 VPH_PWR+0.5 V VPH_PWR -0.5 6.0 V 3.2.
Thundercomm TurboX C40x SOM Datasheet 3.3. Output power The SOM provides power supply for external device. Table 3-4. Output power Default voltage(V) Function Programmable range(V) Rated current(mA) Default ON Expected use VREG_L6_1P8 +1.8 - 100 Y 1.8V IO pull up voltage; VREG_L11_SDC2 +2.95 +1.8--+3.3 100 Y Power output for SD card data pull up VREG_L7_1P8 +1.8 +1.7--+1.89 100 N 1.8V LDO power output,100mA VREG_L13_3P3 +3.3 +1.8--+3.3 100 N 3.3V LDO power output,100mA 3.4.
Thundercomm TurboX C40x SOM Datasheet 3.4.2. SD card digital I/O characteristics The SD card is powered by P2; the power is 1.8V and 2.95V.the following table shows the SD card digital I/O characteristics: Table 3-6. SD digital IO voltage performance (1.8V/2.95V) Parameter Description Min Typical Max Units High-level input voltage 1.27V/1.84V - 2.0V/2.98V V VIL Low-level input voltage -0.3 - 0.58/0.
Thundercomm TurboX C40x SOM Datasheet Table 3-8. SD digital IO timing characteristics Parameter Description Min Typical Max Units DDR mode – SDC2, up to 50 MHz tchrd Command hold 1.50 - - ns tcsurd Command setup 6.30 - - ns tdhrd Data hold 1.50 - - ns tdsurd Data setup 2.00 - - ns tpddwr Propagation delay on data write 0.80 - 6.00 ns tpdcwr Propagation delay on command write -8.20 - 3.00 ns 3.5. USB The SOM supports USB standards and exceptions.
Thundercomm TurboX C40x SOM Datasheet Table 3-11. SLIMbus frequencies SLIMbus SVS Normal Turbo Units Slimbus1 (IFM) 24.57 24.57 24.57 MHz Slimbus2 (QCA) (IFM) 24.57 24.57 24.57 MHz Slimbus1 (XFM) 23.1 23.1 23.1 MHz Slimbus2 (XFM) 22.4 22.4 22.4 MHz 3.7. I2S Legacy I2S interfaces for primary and secondary microphones and speakers. The multiple I2S (MI2S) interface for microphone and speaker functions, including audio for HDMI. Table 3-12.
Thundercomm TurboX C40x SOM Datasheet Table 3-13. I2S interface timing characteristics Parameter Description Min Typical Max Units Using internal SCK F Frequency. Load capacitance is between 10 and 40pF. 12.288 MHz T Clock period. Load capacitance is between 10 and 40pF. 81.380 - ns t(HC) Clock high. Load capacitance is between 10 and 40pF. 0.45 x T 0.55 x T ns t(LC) Clock low. Load capacitance is between 10 and 40pF. 0.45 x T 0.55 x T ns t(sr) SD and WS input setup time.
Thundercomm TurboX C40x SOM Datasheet 3.8. PDM THE SOM PDM interfaces for primary and secondary digital microphones. DMIC interfaces running at 9.6 MHz clock. Figure 3-4. PDM Interface Timing Diagram Table 3-15.
Thundercomm TurboX C40x SOM Datasheet 3.10. SPI The following are the SPI features and comparisons: Supports 4-bit (MISO, MOSI, CS, CLK) synchronous serial data link. Support for master-only mode, up to 50 MHz on all SPI interfaces. Master device initiates data transfers; Multiple slave devices are supported by using chip-selects. No explicit communication framing, error-checking, or defined data word lengths; The transfers are strictly at the raw bit level.
Thundercomm TurboX C40x SOM Datasheet 3.11. Current sink PM_GPIO_03 is capable of sinking current (up to 12 mA). In addition, since the PWM module can be routed to the current sink, different blinking and dimming patterns can be achieved. Table 3-18. Current sink specification Parameter Rated current sink Description - Min 9 Typical - Max 12 Units mA 3.12. Sleep clock The sleep clock output characteristics: (voltage levels, drive strength, and so on see Digital GPIO characteristics). Table 3-19.
Thundercomm TurboX C40x SOM Datasheet 3.15. Power consumption The following current consumption records are measured on TurboX C40x DK, and any specific equipment configuration or use different from DK may increase power consumption. Table 3-22. Power Consumption Test Condition: Room temperature (25°C). Measure power for 60 sec. QCS404/QCS405 PMS405 & 1GB LPDDR3 WCN3999 (mA) Test case Sleep mode < 2.4 Airplane mode with display OFF, keyword detection OFF 33.
Thundercomm TurboX C40x SOM Datasheet Appendix 1. Notices Thundercomm may have patents or pending patent programs covering subject matter described in this document. The furnishing of this document does not give you any license to these patents. You can send license inquiries to service@thundercomm.com.
Thundercomm TurboX C40x SOM Datasheet use this document in business or public purpose without the prior written consent by Thundercomm. E-mail messages sent to Thundercomm via the Internet are not guaranteed to be completely secure. Thundercomm shall not be liable for any loss incurred by the surfer when transmitting any information over the Internet or for any loss incurred by Thundercomm when sending any information over the Internet at your request.
Thundercomm TurboX C40x SOM Datasheet Appendix 2. Trademarks ni ch ol 20 as 22 .w-07 an -2 g_1 2 th :34 un :4 de7 A rc M omCS mT .c o m Thundercomm, Thundercomm TurboX, TURBOX, Thundersoft turbox are trademarks of Thundercomm Corporation or its associate companies in China and/or other countries. Intel, Intel SpeedStep, Optane, and Thunderbolt are trademarks of Intel Corporation or its subsidiaries in the U.S. and/or other countries.
FCC Caution: Any Changes or modifications not expressly approved by the party responsible for compliance could void the user's 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.
Integration instructions for host product manufacturers according to KDB 996369 D03 OEM Manual v01 2.2 List of applicable FCC rules CFR 47 FCC PART 15 SUBPART C&E has been investigated. It is applicable to the modular. 2.3 Specific operational use conditions This module is stand-alone modular.
ISED Statement This device complies with Industry Canada license ဨH[HPSW 566 VWDQGDUG V 2SHUDWLRQ is subject to the following two conditions: (1) This device may not cause interferenc e, and (2) This device must accept any interference, including interference that may cause un desired operation of the device. Le présentappareilestconforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence.
requirement, then the host can be sold legally. Note Importante: Dans le cas où ces conditions ne peuvent être satisfaites (par exemple pour certaines configurations d'ordinateur portable ou de certaines co-localisation avec un autre émetteur), l'autorisation du Canada n'est plus considéré comme valide et l' ISED ne peut pas être utilisé sur le produit final.
Trace Antenna Specs Main PCBA = zoomed Antenna A1 (1.9 x 0.7 cm) Antenna A2 (2 x 0.6 cm) Semi-rigid coax’s (4.
Antenna Pattern Detail – Ant-A1 Note: 1. Dimensions in mm.
Antenna Pattern Detail – Ant-A2 Note: 1. Dimensions in mm.
Bose Antenna Specs Peak Antenna Gain – 2.4 GHz Band / Ant-A1 2.4 GHz Band Gain_pk = 4.04-1.7 = +2.34 dBi (1.
Peak Antenna Gain – 2.4 GHz Band / Ant-A2 2.4 GHz Band Gain_pk = 4.30-1.7 = +2.60 dBi (1.
Peak Antenna Gain – 5 GHz Band / Ant-A1 5 GHz Band Gain_pk = 4.03-1.7 = +2.33 dBi (1.
Peak Antenna Gain – 5 GHz Band / Ant-A2 Gain_pk = 4.81-1.7 = +3.11 dBi (1.
3D Antenna Gain – 2440 MHz / Ant-A1 / PCBA Front View (“ZX” Plane) X Z xY
3D Antenna Gain – 2440 MHz / Ant-A2 / PCBA Front View (“ZX” Plane) X Z xY
3D Antenna Gain – 5500 MHz / Ant-A1 / PCBA Front View (“ZX” Plane) X Z xY
3D Antenna Gain – 5500 MHz / Ant-A2 / PCBA Front View (“ZX” Plane) X Z xY
Bose Antenna Specs PCB Info Note: 1. Antenna pattern on layer-1. Antenna ground reference on layer-3.
