PARROT FC6100ASPEN WLAN Transceiver User Manual FC6100 ASPEN Datasheet 21fev2012

PARROT WLAN Transceiver FC6100 ASPEN Datasheet 21fev2012

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FC6100ASPEN User Manual

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PARROT PRODUCT DATASHEET Parrot FC6100 ASPEN Version 1.1 MARCH 2012 Confidential information

DATASHEET Confidential Information 2/18 Ref: FC6100-Datasheet Parrot FC6100 ASPEN Full connectivity module with Android OS. Technical Features: • LCD Management-LCD RGB/LVDS • Wi-Fi module • Piconet and scatternet support • Standard single 3V3 supply • UARTs, I²C • 1*USB 2.0 High Speed • Digital and analog audio in and out • Analog Video output • Module dimensions 72 x 44.3 x 4.60mm • IPod chip management (optional) • 2nd USB 2.0 connection (optional) Applications: • Smartphone Android Apps platform • Navigation • Telephony voice recognition • Multimedia voice recognition • Terminal mode The FC6100 ASPEN platform provides a full API, to access Parrot Libraries. Description: Parrot FC6100 ASPEN is a solution for Multimedia systems. It integrates a large variety of interfaces for easy integration of most multimedia applications.

Confidential Information 3/18 Ref: FC6100ASPEN-Datasheet Table of contents 1 FC6100 ASPEN Overview .................................................................................................................... 4 2 Features List ....................................................................................................................................... 5 2.1 Connectivity ................................................................................................................................. 5 3 FC6100 ASPEN technology ................................................................................................................. 6 5 Wi-Fi Use Cases .................................................................................................................................. 7 5.1 Parrot’s FC6100 ASPEN provides the internet connection to Wi-Fi users .................................. 7 7 Hardware Overview ........................................................................................................................... 8 7.1 Memory ....................................................................................................................................... 8 7.2 Power domains ............................................................................................................................ 8 7.3 Power supplies ............................................................................................................................ 8 7.4 Digital communication links ........................................................................................................ 8 7.4.1 Control signals ................................................................................................................. 8 7.4.2 I2C .................................................................................................................................... 9 7.4.3 UART ................................................................................................................................ 9 7.4.4 Digital data bus ................................................................................................................ 9 7.4.5 Audio interface .............................................................................................................. 10 7.4.6 Video interface .............................................................................................................. 10 7.5 Pin Out Table (140 pins connector) ........................................................................................... 11 8 Mechanical Dimension (preliminary) ............................................................................................... 15 9 Absolute Maximum Ratings ............................................................................................................. 16 10 Electrical Specifications .................................................................................................................... 16 10.1 Power Consumption (preliminary) ............................................................................................ 16 10.2 Power Supplies .......................................................................................................................... 16 10.3 Hardware Reset Conditions ....................................................................................................... 16 10.4 Software Reset Input ................................................................................................................. 16 10.5 Digital IO Pins ............................................................................................................................ 17 11 FCC requirements for module application ....................................................................................... 18

Confidential Information 4/18 Ref: FC6100ASPEN-Datasheet 1 FC6100 ASPEN Overview FC6100 ASPEN is an easy to integrate module based on the Texas Instruments OMAP 3630 multimedia processor: Cortex A8 (1600 MIPS), 3D and video hardware accelerator. The FC6100 ASPEN offers the best of both worlds, the automotive-specific precision of Parrot automotive libraries along with the market acceptance of the Android platform running on the ARM Architecture. The ARM architecture includes a family of CPUs with FPU which are sold now in larger volumes than Intel CPUs. They power products with huge market success such as the iPhone and Android phones. The portfolio includes single, dual and quad-core CPUs. FC6100FC6100 TI OMAP ARM Cortex-A8 (1600 MIPS)  Display up to 10'' (1024x768 pixels)  Integrated OpenGL 3D Graphics Accelerator  Up to 4Gbits RAM, 8Gbits FLASH

Confidential Information 5/18 Ref: FC6100ASPEN-Datasheet 2 Features List 2.1 Connectivity • USB  Parrot FC6100 ASPEN embeds a USB 2.0 OTG high speed transceiver  Compliant with USB devices supporting Mass Storage Class  Supports USB hub • Wi-Fi  IEEE 802.11b/g/i compliant  Data rates of 1–54 Mbps for 802.11g  Security support for WPS, WPA2, WPA  Ad hoc, station, or Access Point mode  Up to 8 devices can simultaneously be connected in Access Point mode

Confidential Information 6/18 Ref: FC6100ASPEN-Datasheet 3 FC6100 ASPEN technology  FC6100 ASPEN Wi-Fi protocol summary 802.11a - 5GHz WiFi 54Mbps No802.11b - 2.4GHz WiFi 11Mbps Yes802.11d - "World Mode" No802.11g - 2.4GHz WiFi 54Mbps Yes802.11h - 5GHz interferrence avoid No802.11i - Security Yes802.11j - Japan Standard No802.11n - 2.4GHz WiFi 150Mbps No802.11y - High Power WiFi NoAccess Point support on reset -frimware changeAd-Hoc YesClient YesPAN - like Intel Cliffside multi point access NoWPA2 / WPAYes2.4GHz SupportedWLANCoexistence

Confidential Information 7/18 Ref: FC6100ASPEN-Datasheet 5 Wi-Fi Use Cases 5.1 Parrot’s FC6100 ASPEN provides the internet connection to Wi-Fi users The Parrot module can act as a Wi-Fi micro Access Point (AP). As an access point, up to 8 devices can be connected simultaneously. With this use case, the FC6100 ASPEN acts as the gateway, using networking terminology. The internet connection is provided by a HSDPA module or by a 3G+ USB dongle. The low-level network control is handled by the FC6100 ASPEN. From the Wi-Fi user perspective, connecting to the in-car network works the same as a standard access point, A software application running in the FC6100 ASPEN is used to set the Wi-Fi networking service:  enabling/disabling Wi-Fi  configuring the security level (WEP, WPA, WPA2), and associated passes  retrieving network information as needed (example: which users are connected) Accesspoint/NIC

Confidential Information 8/18 Ref: FC6100ASPEN-Datasheet 7 Hardware Overview Here is an overview of FC6100 ASPEN Hardware design. For more details, the FC6100 ASPEN Hardware Integration Guide can be sent upon request. 7.1 Memory FC6100 ASPEN Memory configuration: Up to 8Gbits NAND Flash and 4 Gbits mDDR RAM. 7.2 Power domains FC6100 ASPEN’s processor’s digital I/O are mainly referenced to a 1.8V voltage. Historically, Parrot interface uses 3.3V interface. However, some customers might already use 1.8V signaling on their motherboard and level-shifting would then become redundant. The decision was then made to move level-shifting function on the motherboard to improve the flexibility of the design and the module size. Consequently, FC6100 ASPEN digital I/Os belong to 2 different power domains: • 3.3V signaling • 1.8V signaling 7.3 Power supplies • 3V3_MAIN To operate, the module requires a unique 3.3V voltage power supply called 3V3_MAIN with a 10% precision and capable to deliver up to 1A. 3V3_MAIN is internally monitored and triggers power on and power down sequence of the module. • VDD_PERM In cases where RTC option is needed, for time-keeping, the motherboard must also supply the board permanently with another 3.3V voltage called VDD_PERM. • 1V8_IO For customers that do not have any 1.8V voltage level power supply, the module outputs a 1V8_IO power supply that can be used to power level-shifter and 1.8V external devices I/O pads. 7.4 Digital communication links FC6100 ASPEN module uses several means to interface with the system it is integrated in. 7.4.1 Control signals Some discrete signals are used by the module to interact with the rest of the system: • RESET_HOSTn is the module’s reset input • S_RESETOUTn & H_RESETOUTn inform the motherboard of the reset state of the module • BOOTS is an input which activates firmware update

Confidential Information 9/18 Ref: FC6100ASPEN-Datasheet • IT_HOSTn is the motherboard’s interruption signal to request communication with FC6100 ASPEN when slave. 7.4.2 I2C • I2C_0 I2C 0 is a 1.8V signaling I2C link dedicated to be used on motherboard. It can operate as a master or as a slave. Note: On WB_FC6xxx development board, I2C_0 is used for Touch Panel Controller, external audio codec & audio power amplifier interface. • I2C_1 I2C 1 set as a master and is 3.3V signaling at the connector end. It is also used internally for communication with the Audio Codec. Its clock frequency is limited to 100 Khz in compliance with I2C default speed specification. Note: On WB_FC6xxx board, I2C_1 is used for iPOD authentication chip communication. 7.4.3 UART • UART_0 UART 0 is a standard UART interface with flow control signals. 7.4.4 Digital data bus 7.4.4.1 SDIO • SDIO_0 SDIO_0 is a complete SD Card bus, capable of high speed operation (up to 48Mhz). It is also used as secondary flash update interface. • SDIO_1 SDIO_1 is a complete SD Card bus, capable of full speed operation (up to 48Mhz). 7.4.4.2 USB • USB_0 USB_0 is a host or device USB interface compliant with USB2.0 High Speed Specifications. It can also be used as OTG USB device. • USB_1 USB_1 is a host or device USB interface compliant with USB2.0 High Speed Specifications. 7.4.4.3 SPI • SPI_0 SPI_0 is a 1.8V SPI Bus operating as a master for up to 2 slaves. Its maximum clock frequency is 48Mhz. • SPI_1 SPI_1 is a 1.8V SPI Bus operating as master or slave. Its maximum clock frequency is 48MHz when master & 24Mhz when slave

Confidential Information 10/18 Ref: FC6100ASPEN-Datasheet 7.4.5 Audio interface FC6100 ASPEN module provides both digital and analog audio interface. 7.4.5.1 Analog Audio • Analog audio inputs FC6100 ASPEN provides 3 stereo analog audio inputs: • 2 stereo Line inputs : LINEIN_1 & LINEIN_2 • 1 stereo Microphone input MIC* composed of 2 single-ended or differential Mic inputs Those 3 channels are internally multiplexed so only one can be used at the same time. • Analog audio output FC6100 ASPEN provides one stereo line out: LINEOUT. 7.4.5.2 Digital Audio FC6100 ASPEN module provides 2 bidirectional 1.8V I2S links. Providing a complete I2S interface (bit clock, left/right clock & master clock), FC6100 ASPEN operates as master of the bus for an external audio codec on motherboard. If needed, FC6100 ASPEN I2S interface can be set as slave if your motherboard provides the needed clock signals: • Bit clock & Left/Right if using digital audio only • Bit clock, left/right Clock & Master Clock if analog audio is also needed 7.4.6 Video interface FC6100 ASPEN features input & output video flow management. 7.4.6.1 Display interface • Digital video interface: LCD_* FC6100 ASPEN features a 1.8V signaling 24-bit wide parallel video bus targeting LCD Panel use: • It includes Horizontal & Vertical synchronization signals and can also be used with Data Enable signal only. • Max clock frequency is 74Mhz. 7.4.6.1.1 Analog video interface: TV* The interface is an analog video output capable of: • S-video • AC-coupled Composite 7.4.6.1.2 Record interface: CAM_* A parallel 1.8V signaling 8-bit wide parallel camera input bus is provided.

Confidential Information 11/18 Ref: FC6100ASPEN-Datasheet 7.5 Pin Out Table (140 pins connector) pin signal name pin type Pwr domain function Analog Audio 2 MIC1_P I 3V3 Ana Differential Microphone 1 - Positive Input 4 MIC1_N I 3V3 Ana Differential Microphone 1 - Negative Input 8 MIC2_P I 3V3 Ana Differential Microphone 2 - Positive Input 6 MIC2_N I 3V3 Ana Differential Microphone 2 - Negative Input 1 MIC_BIAS O 3V3 Ana Microphone Bias Supply Output 3 LINEIN1_R I 3V3 Ana Stereo Line Input 1 - Right Channel 5 LINEIN1_L I 3V3 Ana Stereo Line Input 1 - Left Channel 9 LINEIN2_R I 3V3 Ana Stereo Line Input 2 - Right Channel 7 LINEIN2_L I 3V3 Ana Stereo Line Input 2 - Left Channel 12 LINEOUT1_R O 3V3 Ana Stereo Line Output 1 - Right Channel 14 LINEOUT1_L O 3V3 Ana Stereo Line Output 1 - Left Channel Digital Audio 15 I2S_MCLK O 1V8 I2S Master Clock 24 I2S_FSYNC O 1V8 I2S Left/Right Clock 26 I2S_BCLK O 1V8 I2S Bit Clock 18 I2S_IN0 I 1V8 I2S Input 0 22 I2S_IN1 I 1V8 I2S Input 1 20 I2S_OUT0 O 1V8 I2S Output 0 28 I2S_OUT1 O 1V8 I2S Output 1 19 I2S_OUT2 O 1V8 I2S Output 1 I2C 0 21 I2C_0_SCL O 1V8 I2C 0 Serial Clock 23 I2C_0_SDA I/O 1V8 I2C 0 Serial Data I2C 1 37 I2C_1_SCL O 3V3 I2C 1 Serial Clock 39 I2C_1_SDA I/O 3V3 I2C 1 Serial Data SDIO 0 - SD Card Inteface 82 SDIO_0_CLK O 3V3 SD Card 0 - Clock output 88 SDIO_0_CMD O/I 3V3 SD Card 0 - Command line 84 SDIO_0_D0 O/I 3V3 SD Card 0 - Data 0 92 SDIO_0_D1 O/I 3V3 SD Card 0 - Data 1 90 SDIO_0_D2 O/I 3V3 SD Card 0 - Data 2 86 SDIO_0_D3 O/I 3V3 SD Card 0 - Data 3 123 SDIO_0_CDn I 3V3 SD Card 0 - Card Detect Input 125 SDIO_0_WPn I 3V3 SD Card 0 - Write Protect Input SDIO 1 - SD Card Inteface 47 SDIO_1_CLK O 3V3 SD Card 1 - Clock Output

Confidential Information 12/18 Ref: FC6100ASPEN-Datasheet 41 SDIO_1_CLKIN I 3V3 SD Card 1 - Clock Feedback Input 43 SDIO_1_CMD I/O 3V3 SD Card 1 - Command line 27 SDIO_1_D0 I/O 3V3 SD Card 1 - Data 0 29 SDIO_1_D1 I/O 3V3 SD Card 1 - Data 1 31 SDIO_1_D2 I/O 3V3 SD Card 1 - Data 2 33 SDIO_1_D3 I/O 3V3 SD Card 1 - Data 3 119 SDIO_1_CDn I 3V3 SD Card 1 - Card Detect Input 121 SDIO_1_WPn I 3V3 SD Card 1 - Write Protect Input SPI 0 104 SPI_0_CLK O 1V8 SPI 0 Clock 106 SPI_0_MISO I 1V8 SPI 0 Master Input Slave Output 102 SPI_0_MOSI O 1V8 SPI 0 Master Output Slave Input 100 SPI_0_CS0n O 1V8 SPI 0 Slave 0 Select SPI 1 70 SPI_1_CLK O 1V8 SPI 1 Clock 64 SPI_1_MISO I 1V8 SPI 1 Master Input Slave Output 66 SPI_1_MOSI O 1V8 SPI 1 Master Output Slave Input 68 SPI_1_CS0n O 1V8 SPI 1 Slave 0 Select 80 SPI_1_CS1n O 1V8 SPI 1 Slave 1 Select UART 0 120 UART_0_TX O 1V8 UART 0 Ouput 110 UART_0_RTS O 1V8 UART 0 Request to Send 118 UART_0_RX I 1V8 UART 0 Input 112 UART_0_CTS I 1V8 UART 0 Clear to Send USB 0 138 USB_0_DP IO USB USB 0 Diffrential signal - + 140 USB_0_DM IO USB USB 0 Diffrential signal -- 137 USB_0_VBUS I USB USB 0 Vbus sense input 134 USB_0_CPEN O 3V3 USB 0 Vbus enable output 136 USB_0_ID IO 3V3 USB 0 ID input 135 USB_0_OCn I 3V3 USB 0 Vbus overcurrent flag USB 1 130 USB_1_DP IO USB USB 1 Diffrential signal - + 128 USB_1_DM IO USB USB 1 Diffrential signal -- 133 USB_1_VBUS I 3V3 USB 1 Vbus sense input 132 USB_1_CPEN O 3V3 USB 1 Vbus enable output 131 USB_1_OCn I 3V3 USB 1 Vbus overcurrent flag LCD Display interface 95 LCD_RSTn O 1V8 LCD Display Reset 71 LCD_EN O 1V8 LCD Enable 65 LCD_CLK O 1V8 LCD Pixel Clock 51 LCD_HS O 1V8 LCD - Horizontal Synchronisation 61 LCD_VS O 1V8 LCD - Vertical Synchronisation 97 LCD_D0 O 1V8 LCD Data 0

Confidential Information 13/18 Ref: FC6100ASPEN-Datasheet 93 LCD_D1 O 1V8 LCD Data 1 111 LCD_D2 O 1V8 LCD Data 2 109 LCD_D3 O 1V8 LCD Data 3 107 LCD_D4 O 1V8 LCD Data 4 105 LCD_D5 O 1V8 LCD Data 5 55 LCD_D6 O 1V8 LCD Data 6 53 LCD_D7 O 1V8 LCD Data 7 59 LCD_D8 O 1V8 LCD Data 8 57 LCD_D9 O 1V8 LCD Data 9 101 LCD_D10 O 1V8 LCD Data 10 103 LCD_D11 O 1V8 LCD Data 11 99 LCD_D12 O 1V8 LCD Data 12 87 LCD_D13 O 1V8 LCD Data 13 91 LCD_D14 O 1V8 LCD Data 14 89 LCD_D15 O 1V8 LCD Data 15 73 LCD_D16 O 1V8 LCD Data 16 63 LCD_D17 O 1V8 LCD Data 17 83 LCD_D18 O 1V8 LCD Data 18 85 LCD_D19 O 1V8 LCD Data 19 79 LCD_D20 O 1V8 LCD Data 20 81 LCD_D21 O 1V8 LCD Data 21 77 LCD_D22 O 1V8 LCD Data 22 75 LCD_D23 O 1V8 LCD Data 23 49 LCD_BKL_EN O 1V8 LCD Screen backlight Enable 67 LCD_BKL_PWM O 1V8 LCD Screen Backlight PWM control Camera Input 50 CAM_ENn O 1V8 Camera interface Enable 48 CAM_PCLK I 1V8 Camera Pixel Clock 42 CAM_MCLK I 1V8 Camera MasterClock 32 CAM_HS I 1V8 Camera Horizontal Synchronization 34 CAM_VS I 1V8 Camera Vertical Synchronization 54 CAM_D0 I 1V8 Camera Data 0 52 CAM_D1 I 1V8 Camera Data 1 44 CAM_D2 I 1V8 Camera Data 2 40 CAM_D3 I 1V8 Camera Data 3 46 CAM_D4 I 1V8 Camera Data 4 30 CAM_D5 I 1V8 Camera Data 5 62 CAM_D6 I 1V8 Camera Data 6 60 CAM_D7 I 1V8 Camera Data 7 58 CAM_D8 I 1V8 Camera Data 8 56 CAM_D9 I 1V8 Camera Data 9 Module Control 127 RESET_HOSTn I 1V8 Main Software Reset Input 129 BOOTS I 1V8 Software Update Input Signal 45 S_RESETOUTn O 1V8 Software Reset state flag

Confidential Information 14/18 Ref: FC6100ASPEN-Datasheet 122 H_RESETOUTn O 1V8 Hardware Reset state flag Discrete Signals 78 GPIO_0_PWM IO 1V8 General Purpose Input / Output - capable of PWM operations 72 GPIO_1_PWM IO 1V8 General Purpose Input / Output - capable of PWM operations 108 GPIO_2_CLK IO 1V8 General Purpose Input / Output - capable of Clock Ouput 11 IPOD_RESETn O 1V8 Ipod Authenfication chip reset output 21 IT_HOSTn I 1V8 Interruption for HOST communication input 35 IT_TOUCHSCREENn I 1V8 Interruption for Touch pad activity Input Analog TV out 96 TV_LUMA O 1V8 Ana Luminance output for S-Video 98 TV_CHROMA O 1V8 Ana Chrominance output for S-Video Power Supplies 115 3V3_MAIN PI - Main Power Supply Input : 3,3V 113 3V3_MAIN PI - 116 3V3_MAIN PI - 117 3V3_MAIN PI - 36 3V3_MAIN PI - 76 3V3_MAIN PI - 74 3V3_MAIN PI - 38 3V3_MAIN PI - 13 3V3_PERM PI - 3,3V permanent power supply for RTC 126 1V8_OUT PO - 1,8V Power Supply used for Level Translation 124 1V8_OUT PO - 17 GND PO - Voltage Reference for all module signals 16 GND PO - 10 GND PO - 139 GND PO - 94 GND PO - 114 GND PO - 69 GND PO -

8 Mechanical DimensionPlease find below the main dimensions for The module’s interface is made through a 140• Module connector reference: MOLEX / 55091• Motherboard connector’s reference: MOLEX / 52885Confidential Information Dimension (preliminary) Please find below the main dimensions for FC6100 ASPEN module. The module’s interface is made through a 140-pin board to board connector with a 0.635mm pitch. Module connector reference: MOLEX / 55091-1472 Motherboard connector’s reference: MOLEX / 52885-1474 15/18 Ref: FC6100ASPEN-Datasheet pin board to board connector with a 0.635mm pitch.

Confidential Information 16/18 Ref: FC6100ASPEN-Datasheet 9 Absolute Maximum Ratings Operating temperature range ............................................................................................ -40°C to +85°C Storage temperature range .............................................................................................. -40°C to +125°C DC input supply voltage.......................................................................................................... 3.2V to 3.6V Maximum current drawn from 3V3_MAIN ........................................................................................... 1A ESD sensitivity according to AEC Q100 : +/-2kV HBM | +/- 200V MM ................................................ TBD 10 Electrical Specifications 10.1 Power Consumption (preliminary) Off mode ........................................................................................................................................ TBD µA Software Reset mode ........................................................................................................................ 5 mA Hands free mode ........................................................................................................................... TBD mA Audio streaming mode .................................................................................................................. TBD mA Video rendering mode .................................................................................................................. TBD mA 10.2 Power Supplies Conditions unless otherwise-noted : over -40° / +85 ° C Parameter Conditions Min. Typ. Max. Unit 3V3_MAIN Operating conditions 3.2 3.3 3.4 V VDD_PERM Operating conditions 2.5 - 5 V 1V8_OUT Current drawn on Host Board < 300mA 1.72 1.8 1.92 V 10.3 Hardware Reset Conditions Conditions unless otherwise-noted : over -40° / +85 ° C Parameter Conditions Min. Typ. Max. Unit 3V3_MAIN considered as off - - - 0.5 V 3V3_MAIN “off” delay - 100 - - ms 10.4 Software Reset Input Conditions unless otherwise noted,: over -40° / +8 5° C Parameter Conditions Min. Typ. Max. Unit RESET_HOSTn – Activation delay - 100 - µs RESET_HOSTn – ViL - - - 0.6 V RESET_HOSTn – ViH - 1.45 - - V

Confidential Information 17/18 Ref: FC6100ASPEN-Datasheet 10.5 Digital IO Pins FC6100 ASPEN I/Os belong to 2 different digital power domains: 1.8V or 3.3V power supplies. 3,3V power domain Conditions unless otherwise noted : over -40° / +85 ° C Parameter Conditions Min. Typ. Max. Unit ViH - 2.2 - 3.5 V ViL - -0.3 - 0.4 V VoH - 3.07 - 3.6 V VoL - -0.1 - 0.4 V 1,8V power domain Conditions unless otherwise noted : Tamb.=25°C; Vdd =3V3 Parameter Conditions Min. Typ. Max. Unit ViH - 1.3 - 1.95 V ViL - -0.3 - 0.55 V VoH - 1.15 - 2.1 V VoL - -0.1 - 0.45 V

Confidential Information 18/18 Ref: FC6100ASPEN-Datasheet 11 FCC requirements for module application FCC ID: RKXFC6100ASPEN In accordance with FCC Part 15, the FC6100 ASPEN is listed as a Modular Transmitter device. USA – User information This intends to inform how to specify the FCC ID of our module “FC6100 ASPEN” on the product. Based on the Public Notice from FCC, the host device should have a label which indicates that it contains our module. The label should use wording such as: “Contains FCC ID: RKXFC6100ASPEN” Any similar wording that expresses the same meaning may be used. The label of the host device should also include the below FCC Statement. When it is not possible, this information should be included in the User Manual of the host device. “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 (2) this device must accept any interference received, including interference that may cause undesired operation. Caution: Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment.

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