INVIXIUM IXM6490 Elegant Fingerprint Access Control
USER MANUAL
MODEL: IXM6490
INVIXIUM Engineering 25-November-2024
Version 1.1
The IXM6490 SOM board is designed using Thundercomm TurboX C6490 SOM for access control products by INVIXIUM. It is utilized in INVIXIUM fingerprint and face-based access control products.
Document Objective
The User Manual describes the overview of the product. It includes mechanical specifications and functional specifications.
Images shown in this document are shown for Illustrations and might look different from the actual product.
Revision History
| Version | Description of Change | Author | Reviewed By | Date (DD/MM/YYYY) | ||||||||||||
| 1.0 | First Version | INVIXIUM Engineering |
INVIXIUM Engineering |
25/11/2024 | ||||||||||||
| 1.1 | Minor Updates | INVIXIUM Engineering |
INVIXIUM Engineering |
09/12/2024 | ||||||||||||
1. Introduction
INVIXIUM has designed IXM6490 SOM board using Thundercomm TurboX C6490 SOM for its access control products. This IXM6490 SOM will be used in INVIXIUM fingerprint and face based access control products.
This board has the following features:
– It is powered on 3.3VDC.
– It has TurboX C6490 SOM with Qualcomm® Snapdragon ™ QCS6490, a 6 nm processor with superior performance and power efficiency, as well as high AI capability (12.5 TOPS).
– It supports Wi-Fi 6E with DBS & Long-Range Bluetooth and is featured with 5 x 4 -lane MIPI CSI D -PHY (2 of them compatible to support 3 -lane MIPI CSI C -PHY which is up to 48M camera).
– It also has a rich set of peripheral interfaces, including both USB 3.1 and USB 2.0 concurrency and PCIe.
– It has two antenna connectors.
– It has two 100 pin connectors to mount on other board.
2. IXM6490 SOM Block Diagram
Below is the block diagram of IXM6490 SOM. It has Thundercomm TurboX C6490 SOM mounted on it. Also, this board has two connectors of 100 pins each to connect with main board. It has connector for debugging and flashing purpose.
Key Features and Performance of Thundercomm TurboX C6490 SOM
| Item | Description | ||||||||||||||||
| Platform | Snapdragon™ QCS6490 | ||||||||||||||||
| Qualcomm® Kryo™ CPU 670, Qualcomm® Adreno™ GPU 642L, Adreno 633 VPU, Adreno DPU 1075 | |||||||||||||||||
| Qualcomm® Compute Hexagon™ DSP with dual HVX, Hexagon Co-processor (Hexagon CP) 2.0, Hexagon Tensor Accelerator | |||||||||||||||||
| Qualcomm® Spectra™ 570L image processing | |||||||||||||||||
| Memory | 8GB+128GB uMCP | ||||||||||||||||
| Connectivity | 802.11ax over PCIe with DBS, 2×2 MIMO (Wi-Fi 6E), Bluetooth 5.2 | ||||||||||||||||
| Video Encode | 4K@30FPS for H.264/H.265 | ||||||||||||||||
| Video Decode | 4K@60FPS for H.264/H.265/VP9 | ||||||||||||||||
| Display Interfaces | 1x MIPI-DSI 4-lane; 4K@30FPS via DSI; 4K@60FPS display support over DisplayPort | ||||||||||||||||
| Camera Interfaces | 5 x 4-lane MIPI CSI D-PHY (2 compatible with 3-trio MIPI CSI C- PHY up to 48M camera) | ||||||||||||||||
| OS Support | Android 13, LU, LE | ||||||||||||||||
3. IXM6490 SOM Images
3.1. Mechanical Dimension
Below is the mechanical dimension of IXM6490 SOM. It is 45mm in width and 68mm in height.
3.2. IXM6490 SOM Key Component
Below images show IXM6490 SOM Key Component Location.
Below image shows Thundercomm TurboX C6490 SOM Key Component Location.
4. IXM6490 SOM with Antenna
4.1 Antenna Specification
| Product name | WIFI Tri-band Flexible Antenna |
| Part number | 630810000001 |
| Frequency | 2400-2500 MHz I 5150-5900 MHz I 5925-7125 MHz |
| Polarization | Linear |
| Operating with matching | -40°( to 80°( |
| Storage with matching | -40°( to 80°( |
| RF Power | 2.0 Watts |
| Impedance with matching | 50 Ohms |
| Antenna type | Dipole |
| Connector type | 1-PEX MHF 4 (Compatible) |
| Cable diameter | 00.81mm |
| Cable Length | 150mm |
5. IXM6490 SOM Interface Description
IXM6490 SOM has two 100 pins connectors. Please find below detailed description of each pin.
Pin Interface S1 (100 PINs):
| #Pin | Pin Name | Pin Name (Thundercomm C6490) |
#Pin (Thundercomm C6490) |
Description | ||||||||||||||
| 1 | VPH_PWR_3P3_CONN | +3.3VDC Supply to Buck Converter | Power supply input for SOM. | Power supply input for SOM. | ||||||||||||||
| 2 | VPH_PWR_3P3_CONN | +3.3VDC Supply to Buck Converter |
Power supply input for SOM. |
Power supply input for SOM. |
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| 3 | WCD9385_HPH_R | HPH_R | Pin #52 | U71- WCD9385-Audio Codec – Speaker |
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| 4 | WCD9385_AMIC1_INP | AMIC1_INP | Pin #5 | U71- WCD9385-Audio Codec – AMIC |
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| 5 | WCD9385_HPH_REF_ L |
HPH_REF_L | Pin #40 | U71- WCD9385-Audio Codec – Speaker |
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| 6 | WCD9385_HPH_REF_ R |
HPH_REF_R | Pin #41 | U71- WCD9385-Audio Codec – Speaker |
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| 7 | WCD9385_AMIC2_INP | AMIC2_INP | Pin #16 | U71- WCD9385-Audio Codec – AMIC |
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| 8 | WCD9385_HPH_L | HPH_L | Pin #58 | U71- WCD9385-Audio Codec – Speaker |
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| 9 | NC | NC | NC | NC | ||||||||||||||
| 10 | GND | |||||||||||||||||
| 11 | MIPI_CSI1_LANE3_P | CSI1_B2_LN3_P | AA28 | MIPI CSI 1 (D-PHY), differential lane 3– positive MIPI CSI 1 (C- PHY), trio lane 2 – B |
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| 12 | MIPI_CSI1_LANE3_M | CSI1_C2_LN3_M | AA27 | MIPI CSI 1 (D-PHY), differential lane 3 – negative MIPI CSI 1 (C- PHY), trio lane 2 – C |
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| 13 | GND | |||||||||||||||||
| 14 | MIPI_CSI1_LANE2_M | CSI1_A2_LN2_M | Y27 | MIPI CSI 1 (D-PHY), differential lane 2 – |
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| #Pin | Pin Name | Pin Name (Thundercomm C6490) |
#Pin (Thundercomm C6490) |
Description | ||||||||||||||
| negative MIPI CSI 1 (C- PHY), trio lane 2 – A | ||||||||||||||||||
| 15 | MIPI_CSI1_LANE2_P | CSI1_C1_LN2_P | Y28 | MIPI CSI 1 (D-PHY), differential lane 2 – positive MIPI CSI 1 (C- PHY), trio lane 1 – C |
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| 16 | GND | |||||||||||||||||
| 17 | MIPI_CSI1_LANE1_P | CSI1_A1_LN1_P | W28 | MIPI CSI 1 (D-PHY), differential lane 1 – positive MIPI CSI 1 (C- PHY), trio lane 1 – A |
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| 18 | MIPI_CSI1_LANE1_M | CSI1_B1_LN1_M | W27 | MIPI CSI 1 (D-PHY), differential lane 1 – negative MIPI CSI 1 (C- PHY), trio lane 1 – B |
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| 19 | GND | |||||||||||||||||
| 20 | MIPI_CSI1_CLK_M | CSI1_A0_CLK_M | U27 | MIPI CSI 1 (D-PHY), differential clock – negative MIPI CSI 1 (C- PHY), trio lane 0 – A |
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| 21 | MIPI_CSI1_CLK_P | CSI1_NC_CLK_P | U28 | MIPI CSI 1 (D-PHY), differential clock – positive MIPI CSI 1 (C- PHY), no connect |
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| 22 | GND | |||||||||||||||||
| 23 | MIPI_CSI1_LANE0_M | CSI1_C0_LN0_M | V27 | MIPI CSI 1 (D-PHY), differential lane 0 – negative MIPI CSI 1 (C- PHY), trio lane 0 – C |
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| 24 | MIPI_CSI1_LANE0_P | CSI1_B0_LN0_P | V28 | MIPI CSI 1 (D-PHY), differential lane 0 – positive MIPI CSI 1 (C- PHY), trio lane 0 – B |
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| 25 | GND | |||||||||||||||||
| 26 | MIPI_DSI_LANE3_P | NC | NC | Not Connected | ||||||||||||||
| #Pin | Pin Name | Pin Name (Thundercomm C6490) |
#Pin (Thundercomm C6490) |
Description | ||||||||||||||
| 27 | MIPI_DSI_LANE3_N | NC | NC | Not Connected | ||||||||||||||
| 28 | GND | |||||||||||||||||
| 29 | MIPI_DSI_LANE2_P | NC | NC | Not Connected | ||||||||||||||
| 30 | MIPI_DSI_LANE2_N | NC | NC | Not Connected | ||||||||||||||
| 31 | GND | |||||||||||||||||
| 32 | MIPI_DSI_LANE1_N | NC | NC | Not Connected | ||||||||||||||
| 33 | MIPI_DSI_LANE1_P | NC | NC | Not Connected | ||||||||||||||
| 34 | GND | |||||||||||||||||
| 35 | MIPI_DSI_LANE0_P | NC | NC | Not Connected | ||||||||||||||
| 36 | MIPI_DSI_LANE0_N | NC | NC | Not Connected | ||||||||||||||
| 37 | GND | |||||||||||||||||
| 38 | MIPI_DSI1_CLK_N | NC | NC | Not Connected | ||||||||||||||
| 39 | MIPI_DSI1_CLK_P | NC | NC | Not Connected | ||||||||||||||
| 40 | GND | |||||||||||||||||
| 41 | MIC_TEST | TBD | TBD | AMIC | ||||||||||||||
| 42 | CDC_HPH_R_SOM | TBD | TBD | Speaker | ||||||||||||||
| 43 | CDC_HPH_REF_SOM | TBD | TBD | Speaker | ||||||||||||||
| 44 | CDC_HPH_L_SOM | TBD | TBD | Speaker | ||||||||||||||
| 45 | POWER_ON | PHONE_ON_N | M8 | Power-on key ground switch (200 kΩ internal PU to 1.1 V) |
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| 46 | VOLN_N | PM_RESIN_N | L8 | Reset Keypad volume down button |
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| 47 | HDMI_DDC_DATA | NC | NC | Not Connected | ||||||||||||||
| 48 | HDMI_DDC_CLK | NC | NC | Not Connected | ||||||||||||||
| 49 | VREG_S4_1P8_CONN | VREG_L18B_1P8 | A19 | PX-3, 1.8V Just for GPIO pull up |
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| 50 | VREG_S4_1P8_CONN | VREG_L18B_1P8 | B19 | PX-3, 1.8V Just for GPIO pull up |
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| 51 | VPH_PWR_3P3_CONN | +3.3VDC Supply to Buck Converter |
Power supply input for SOM. |
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| 52 | VPH_PWR_3P3_CONN | +3.3VDC Supply to Buck Converter | Power supply input for SOM. | |||||||||||||||
| 53 | CAM2_MCLK | CAM_MCLK1 | L22 | Camera master clock 1 | ||||||||||||||
| #Pin | Pin Name | Pin Name (Thundercomm C6490) |
#Pin (Thundercomm C6490) |
Description | ||||||||||||||
| 54 | SLIMBUS_DATA1_CAR RIER – TP | NC | NC | Not Connected | ||||||||||||||
| 55 | CAM2_I2C_SCL | CCI_I2C1_SCL | V22 | Dedicated camera control interface I2C serial data |
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| 56 | CAM1_MCLK | CAM_MCLK0 | M20 | Camera master clock 0 | ||||||||||||||
| 57 | CAM2_I2C_SDA | CCI_I2C1_SDA | U22 | Dedicated camera control interface I2C serial data |
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| 58 | GND | |||||||||||||||||
| 59 | MIPI_CSI0_LANE0_M | CSI0_C0_LN0_M | AC25 | MIPI CSI 0 (D-PHY), differential lane 0 – negative |
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| 60 | MIPI_CSI0_LANE0_P | CSI0_B0_LN0_P | AB25 | MIPI CSI 0 (D-PHY), differential lane 0 – positive |
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| 61 | GND | |||||||||||||||||
| 62 | MIPI_CSI0_CLK_M | CSI0_A0_CLK_M | AC26 | MIPI CSI 0 (D-PHY), differential clock – negative |
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| 63 | MIPI_CSI0_CLK_P | CSI0_NC_CLK_P | AB26 | MIPI CSI 0 (D-PHY), differential clock – positive |
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| 64 | GND | |||||||||||||||||
| 65 | MIPI_CSI0_LANE1_P | CSI0_A1_LN1_P | AB24 | MIPI CSI 0 (D-PHY), differential lane 1 – positive |
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| 66 | MIPI_CSI0_LANE1_M | CSI0_B1_LN1_M | AC24 | MIPI CSI 0 (D-PHY), differential lane 1 – negative |
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| 67 | GND | |||||||||||||||||
| 68 | MIPI_CSI0_LANE2_M | CSI0_A2_LN2_M | AC23 | MIPI CSI 0 (D-PHY), differential lane 2 – negative |
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| #Pin | Pin Name | Pin Name (Thundercomm C6490) |
#Pin (Thundercomm C6490) |
Description | ||||||||||||||
| 69 | MIPI_CSI0_LANE2_P | CSI0_C1_LN2_P | AB23 | MIPI CSI 0 (D-PHY), differential lane 2 – positive |
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| 70 | GND | |||||||||||||||||
| 71 | MIPI_CSI0_LANE3_M | CSI0_C2_LN3_M | AC22 | MIPI CSI 0 (D-PHY), differential lane 3 – negative |
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| 72 | MIPI_CSI0_LANE3_P | CSI0_B2_LN3_P | AB22 | MIPI CSI 0 (D-PHY), differential lane 3 – positive |
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| 73 | GND | |||||||||||||||||
| 74 | HDMI_TMDS_CLK_M | NC | NC | Not Connected | ||||||||||||||
| 75 | HDMI_TMDS_CLK_P | NC | NC | Not Connected | ||||||||||||||
| 76 | GND | |||||||||||||||||
| 77 | HDMI_TMDS_TX0_M | NC | NC | Not Connected | ||||||||||||||
| 78 | HDMI_TMDS_TX0_P | NC | NC | Not Connected | ||||||||||||||
| 79 | GND | |||||||||||||||||
| 80 | HDMI_TMDS_TX1_M | NC | NC | Not Connected | ||||||||||||||
| 81 | HDMI_TMDS_TX1_P | NC | NC | Not Connected | ||||||||||||||
| 82 | GND | |||||||||||||||||
| 83 | HDMI_TMDS_TX2_M | NC | NC | Not Connected | ||||||||||||||
| 84 | HDMI_TMDS_TX2_P | NC | NC | Not Connected | ||||||||||||||
| 85 | GND | |||||||||||||||||
| 86 | MIPI_DSI0_LANE3_M | MIPI_DSI0_L3_M | T7 | MIPI DSI 4 (D-PHY), differential lane 3 – negative |
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| 87 | MIPI_DSI0_LANE3_P | MIPI_DSI0_L3_P | T8 | MIPI DSI 4 (D-PHY), differential lane 3 – positive |
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| 88 | GND | |||||||||||||||||
| 89 | MIPI_DSI0_LANE2_M | MIPI_DSI0_L2_M | U7 | MIPI DSI 4 (D-PHY), differential lane 2 – negative |
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| #Pin | Pin Name | Pin Name (Thundercomm C6490) |
#Pin (Thundercomm C6490) |
Description | ||||||||||||||
| 90 | MIPI_DSI0_LANE2_P | MIPI_DSI0_L2_P | U8 | MIPI DSI 4 (D-PHY), differential lane 2 – positive |
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| 91 | GND | |||||||||||||||||
| 92 | MIPI_DSI0_LANE1_P | MIPI_DSI0_L1_P | R8 | MIPI DSI 4 (D-PHY), differential lane 1 – positive |
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| 93 | MIPI_DSI0_LANE1_M | MIPI_DSI0_L1_M | R7 | MIPI DSI 4 (D-PHY), differential lane 1 – negative |
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| 94 | GND | |||||||||||||||||
| 95 | MIPI_DSI0_LANE0_P | MIPI_DSI0_L0_P | V8 | MIPI DSI 4 (D-PHY), differential lane 0 – positive |
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| 96 | MIPI_DSI0_LANE0_M | MIPI_DSI0_L0_M | V7 | MIPI DSI 4 (D-PHY), differential lane 0 – negative |
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| 97 | GND | |||||||||||||||||
| 98 | MIPI_DSI0_CLK_P | MIPI_DSI0_CLK_P | P8 | MIPI DSI 4 (D-PHY), differential clock – positive |
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| 99 | MIPI_DSI0_CLK_M | MIPI_DSI0_CLK_M | P7 | MIPI DSI 4 (D-PHY), differential clock – negative |
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| 100 | GND | |||||||||||||||||
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.
This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter.
IMPORTANT NOTE:
Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
—Reorient or relocate the receiving antenna.
—Increase the separation between the equipment and receiver.
—Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
—Consult the dealer or an experienced radio/TV technician for help.
FCC Radiation Exposure Statement:
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment .This equipment should be installed and operated with minimum distance 25cm between the radiator& your body.
Integration instructions for host product manufacturers according to KDB 996369 D03 OEM Manual v01r01
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. If the end product will involve the Multiple simultaneously transmitting condition or different operational conditions for a
stand-alone modular transmitter in a host, host manufacturer have to consult with module manufacturer for the installation method in end system.
Operation of 5850-5895MHz, 5925-6425 MHz, 6425-6525MHz, 6525-6875MHz, 6875-7125MHz are restricted to indoor use only.
Operation of transmitters in the 5.925-7.125 GHz band is prohibited for control of or communications with unmanned aircraft systems.
2.4 Limited module procedures
Not applicable
2.5 Trace antenna designs
Not applicable
2.6 RF exposure considerations
To maintain compliance with FCC’s RF Exposure guidelines, this equipment should be installed and operated with minimum distance of 25cm from your body.
2.7 Antennas
This module device tested with follow antennas information.
| Antenna | Antenna Description | Antenna type | Impedance | Maximum antenna gain | |||||||||||
| Antenna 1 | Bluetooth/Wi-Fi Antenna | Dipole | 50Ω | Bluetooth/2.4G Wi-Fi: 2.5dBi, 5/6G Wi-Fi: 2.6dBi | |||||||||||
| Antenna 2 | Wi-Fi Antenna | Dipole | 50Ω | 2.4G Wi-Fi: 2.5dBi, 5/6G Wi-Fi: 2.6dBi |
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2.8 Label and compliance information
The module with label, FCC ID: S38-IXM6490 listed. Please refer to label.
The final end product must be labeled in a visible area with the following” Contains FCC ID: S38-IXM6490”
2.9 Information on test modes and additional testing requirements
Host manufacturer is strongly recommended to confirm compliance with FCC requirements for the transmitter when the module is installed in the host.
2.10 Additional testing, Part 15 Subpart B disclaimer
Host manufacturer is responsible for compliance of the host system with module installed with all other applicable requirements for the system such as Part 15 B
ISED Warning:
This device complies with Innovation, Science, and Economic Development Canada licence-exempt RSS standard(s). Operation is subject to the following two conditions:
(1) this device may not cause interference, and
(2) this device must accept any interference, including interference that may cause undesired operation of the device.
Le présent appareil est conforme aux CNR d’ Innovation, Sciences et Développement économique Canada applicables aux appareils radio exempts de licence. L’exploitation est autorisée aux deux conditions suivantes :
(1) l’appareil nedoit pas produire de brouillage, et
(2) l’utilisateur de l’appareil doit accepter tout brouillage radioélectrique subi, même si le brouillage est susceptible d’en compromettre le fonctionnement.
The device is compliance with RF exposure guidelines, users can obtain Canadian information on RF exposure and compliance.The minimum distance from body to use the device is 25cm.
Le présent appareil est conforme Après examen de ce matériel aux conformité ou aux limites d’intensité de champ RF, les utilisateurs peuvent sur l’exposition aux radiofréquences et la conformité and compliance d’acquérir les informations correspondantes. La distance minimale du corps à utiliser le dispositif est de 25cm.
This Class B digital apparatus complies with Canadian ICES-003.”
Cet appareil numérique de classe b est conforme à la norme nmb-003 du canada.
Specific operational use conditions
The device for operation in the band 5150-5250 MHz is only for indoor use to reduce the potential for harmful interference to co-channel mobile satellite systems.
Operation of 5250-5350MHz, 5850-5895MHz, 5925-6425 MHz, 6425-6525MHz, 6525-6875MHz, 6875-7125MHz are restricted to indoor use only.
Devices shall not be used for control of or communications with unmanned aircraft systems. Operation on oil platforms, automobiles, trains, maritime vessels and aircraft shall be prohibited except for on large aircraft flying above 3,048 m (10,000 ft).
Conditions d’utilisation opérationnelles spécifiques
The device for operation in the band 5150-5250 MHz is only for indoor use to reduce the potential for harmful interference to co-channel mobile satellite systems.
Operation of 5250-5350MHz, 5850-5895MHz, 5925-6425 MHz, 6425-6525MHz, 6525-6875MHz, 6875-7125MHz are restricted to indoor use only.
Les appareils ne doivent pas être utilisés pour contrôler ou communiquer avec des systèmes d’aéronefs sans pilote.
L’utilisation sur des plateformes pétrolières, des automobiles, des trains, des navires et des aéronefs est interdite, sauf sur des gros aéronefs volant à plus de 3,048 m (10,000 ft).
This device is intended only for OEM integrators under the following condition: The transmitter module may not be co-located with any other transmitter or antenna. As long as the condition above is met, further transmitter test will not be required. However, the OEM integrator is still responsible for testing their end-product for any additional compliance requirements required with this module installed.
Cet appareil est conçu uniquement pour les intégrateurs OEM dans les conditions suivantes:
Le module émetteur peut ne pas être coïmplanté avec un autre émetteur ou antenne. Tant que les 1 condition ci-dessus sont remplies, des essais supplémentaires sur l’émetteur ne seront pas nécessaires. Toutefois, l’intégrateur OEM est toujours responsable des essais sur son produit final pour toutes exigences de conformité supplémentaires requis pour ce module installé.
Important Note:
In the event that these conditions cannot be met (for example certain laptop configurations or co-location with another transmitter), then the Canada authorization is no longer considered valid and the ISED cannot be used on the final product. In these circumstances, the OEM integrator will be responsible for re-evaluating the end product (including the transmitter) and obtaining a separate Canada authorization.
Any company of the host device which install this modular with limit modular approval should perform the test of radiated emission and spurious emission according to RSS-247, RSS-248 and RSS-Gen requirement, only if the test result comply with RSS-247, RSS-248 and RSS-Gen requirement, then the host can be sold legally.
Remarque importante :
Si ces conditions ne peuvent pas être respectées (par exemple, certaines configurations d’ordinateurs portables ou la colocalisation avec un autre émetteur), l’autorisation canadienne n’est plus considérée comme valide et l’ISED ne peut pas être utilisé sur le produit final. Dans ces circonstances, l’intégrateur OEM sera responsable de la réévaluation du produit final (y compris l’émetteur) et de l’obtention d’une autorisation canadienne distincte.
Toute entreprise de l’appareil hôte qui installe ce module avec une approbation modulaire limitée doit effectuer le test d’émission rayonnée et d’émission parasite conformément aux exigences RSS-247, RSS-248 et RSS-Gen, uniquement si le résultat du test est conforme aux exigences RSS-247, RSS-248 et RSS-Gen, l’hôte peut alors être vendu légalement.
End Product Labeling
The final end product must be labeled in a visible area with the following:
Contains IC: 10891A-IXM6490.
Plaque signalétique du produit final
Le produit final doit être étiqueté dans un endroit visible avec l’inscription suivante:
Contains IC: 10891A-IXM6490.
Manual Information to the End User
The OEM integrator has to be aware not to provide information to the end user regarding how to install or remove this RF module in the user’s manual of the end product which integrates this module.
The end user manual shall include all required regulatory information/warning as show in this manual.
Manuel d’information à l’utilisateur final
L’intégrateur OEM doit être conscient de ne pas fournir des informations à l’utilisateur final quant à la façon d’installer ou de supprimer ce module RF dans le manuel de l’utilisateur du produit final qui intègre ce module.
Le manuel de l’utilisateur final doit inclure toutes les informations réglementaires requises et avertissements comme indiqué dans ce manuel.
This radio transmitter [IC: 10891A-IXM6490] has been approved by Innovation, Science and Economic Development Canada to operate with the antenna types listed below:
Cet émetteur radio [IC: 10891A-IXM6490] a été approuvé par Innovation, Sciences et Développement économique Canada pour fonctionner avec les types d’antenne énumérés
ci-dessous:
Antenna types not included in this list that have a gain greater than the maximum gain indicated for any type listed are strictly prohibited for use with this device.
Les types d’antennes non inclus dans cette liste qui ont un gain supérieur au gain maximum indiqué pour tout type répertorié sont strictement interdits pour l’utilisation avec cet appareil.
Specifications
- Platform: SnapdragonTM QCS6490
- Memory: 8GB+128GB uMCP
- Connectivity: 802.11ax over PCIe with DBS, 2×2 MIMO (Wi-Fi 6E), Bluetooth 5.2
- Video Encode: 4K@30FPS for H.264/H.265
- Video Decode: 4K@60FPS for H.264/H.265/VP9
- Display Interfaces: 1x MIPI-DSI 4-lane; 4K@30FPS via DSI; 4K@60FPS display support over DisplayPort
- Camera Interfaces: 5 x 4-lane MIPI CSI D-PHY (2 compatible with 3-trio MIPI CSI CPHY up to 48M camera)
- OS Support: Android 13, LU, LE
FAQ
Q: What is the purpose of the IXM6490 SOM board?
A: The IXM6490 SOM board is designed for use in INVIXIUM’s fingerprint and face-based access control products.
Q: What are the key features of the Thundercomm TurboX C6490 SOM?
A: The key features include SnapdragonTM QCS6490 platform, 8GB+128GB uMCP memory, connectivity options, video encoding and decoding capabilities, display and camera interfaces, and support for various operating systems.
Documents / Resources
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INVIXIUM IXM6490 Elegant Fingerprint Access Control [pdf] User Manual S38-IXM6490, S38IXM6490, IXM6490 Elegant Fingerprint Access Control, IXM6490, Elegant Fingerprint Access Control, Fingerprint Access Control, Access Control, Control |
