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XRA1202IG16TR-F

XRA1202IG16TR-F

  • 厂商:

    SIPEX(迈凌)

  • 封装:

    TSSOP-16

  • 描述:

    IC I/O PORT EXPANDER 8 BIT I2C G

  • 数据手册
  • 价格&库存
XRA1202IG16TR-F 数据手册
XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset March 9, 2022 Rev. 1.0.2 GENERAL DESCRIPTION FEATURES The XRA1202/1202P is an 8-bit GPIO expander with After power-up, the an I2C/SMBus interface. XRA1202 has internal 100K ohm pull-up resistors on each I/O pin that can be individually enabled. The XRA1202P has the internal pull-up resistors enabled upon power-up in case it is necessary for the inputs to be in a known state.  In addition, the GPIOs on the XRA1202/1202P can individually be controlled and configured. As outputs, the GPIOs can be outputs that are high, low or in three-state mode. The three-state mode feature is useful for applications where the power is removed from the remote devices, but they may still be connected to the GPIO expander.  As inputs, the internal pull-up resistors can be enabled or disabled and the input polarity can be inverted. The interrupt can be programmed for different behaviors. The interrupts can be programmed to generate an interrupt on the rising edge, falling edge or on both edges. The interrupt can be cleared if the input changes back to its original state or by reading the current state of the inputs. The XRA1202/1202P are enhanced versions of the PCA9538. The XRA1202 is pin and software compatible with the PCA9538 (note: software registers are compatible to the PCA9538, but the I2C slave address is different). The XRA1202 is available in 16-pin QFN and 16-pin TSSOP packages. The XRA1202P is available in the 16-pin QFN package. Only XRA1202P QFN-16 is available. 1  1.65V to 3.6V operating voltage 8 General Purpose I/Os (GPIOs) 5V tolerant inputs Maximum stand-by current of 1uA at +1.8V  I2C/SMBus bus interface                         I2C clock frequency up to 400kHz Noise filter on SDA and SCL inputs Up to 16 I2C Slave Addresses Individually programmable inputs Internal pull-up resistors Polarity inversion Individual interrupt enable Rising edge and/or Falling edge interrupt Input filter Individually programmable outputs Output Level Control Output Three-State Control Open-drain active low interrupt output Active-low reset input Pin and software compatible with PCA9538 3kV HBM ESD protection per JESD22-A114F 200mA latch-up performance per JESD78B Applications Personal Digital Assistants (PDA) Cellular Phones/Data Devices Battery-Operated Devices Global Positioning System (GPS) Bluetooth XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset FIGURE 1. XRA1202/1202P BLOCK DIAGRAM VCC (1.65V – 3.6V) SCL SDA I2C/ SMBus Interface A1 A0 GPIO Control Registers P0 P1 P2 P3 P4 P5 P6 P7 GPIOs RESET# IRQ# GND ORDERING INFORMATION PART NUMBER PACKAGE NUMBER OF GPIOS OPERATING TEMPERATURE RANGE DEVICE STATUS XRA1202PIL16TR-F QFN-16 8 -40°C to +85°C Active NOTE:  TR = Tape and Reel, F = Green / RoHS.  For more information about part numbers, as well as the most up-to-date ordering information and additional information on environmental rating, go to www.maxlinear.com/XRA1202 and www.maxlinear.com/XRA1202P. SDA VCC A0 A1 Figure 2. Pin Out Assignments - Only XRA1202P QFN-16 is available 16 15 14 13 P1 3 P2 4 230DSR00 12 SCL XRA1202/ 11 IRQ# XRA1202P 16-Pin QFN 10 P7 5 6 7 8 9 P6 P5 2 P4 P0 P3 1 GND RESET# 2 A0 1 16 VCC A1 2 15 SDA RESET# 3 14 SCL P0 4 P1 5 XRA1202 16-Pin TSSOP 13 IRQ# 12 P7 P2 6 11 P6 P3 7 10 P5 GND 8 9 P4 Rev. 1.0.2 XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset PIN DESCRIPTIONS Pin Description - Only XRA1202P QFN-16 is available. NAME QFN-16 TSSOP-16 TYPE PIN# PIN# DESCRIPTION I2C INTERFACE SDA 13 15 I/O SCL 12 14 I IRQ# 11 13 OD A0 A1 15 16 1 2 I I These pins select the I2C slave address. See Table 1. RESET# 1 3 I Reset (active LOW) - A longer than 40 ns LOW pulse on this pin will reset the internal registers and all GPIOs will be configured as inputs. 2 3 4 5 7 8 9 10 4 5 6 7 9 10 11 12 I/O I/O I/O I/O I/O I/O I/O I/O General purpose I/Os P0-P7. All GPIOs are configured as inputs upon powerup or after a reset. After power-up or reset, the internal pull-up resistors are enabled for the XRA1202P. After power-up or reset, the internal pull-up resistors are disabled for the XRA1202. I2C-bus data input/output (open-drain). I2C-bus serial input clock. Interrupt output (open-drain, active LOW). GPIOs P0 P1 P2 P3 P4 P5 P6 P7 ANCILLARY SIGNALS VCC 14 16 Pwr 1.65V to 3.6V VCC supply voltage. GND 6 8 Pwr Power supply common, ground. GND Center Pad - Pwr The exposed pad at the bottom surface of the package is designed for thermal performance. Use of a center pad on the PCB is strongly recommended for thermal conductivity as well as to provide mechanical stability of the package on the PCB. The center pad is recommended to be solder masked defined with opening size less than or equal to the exposed thermal pad on the package bottom to prevent solder bridging to the outer leads of the device. Thermal vias must be connected to GND plane as the thermal pad of package is at GND potential. Pin type: I=Input, O=Output, I/O= Input/output, OD=Output Open Drain. 230DSR00 3 Rev. 1.0.2 XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset 1.0 FUNCTIONAL DESCRIPTIONS I2C-bus Interface 1.1 The I2C-bus interface is compliant with the Standard-mode and Fast-mode I2C-bus specifications. The I2C-bus interface consists of two lines: serial data (SDA) and serial clock (SCL). In the Standard-mode, the serial clock and serial data can go up to 100 kbps and in the Fast-mode, the serial clock and serial data can go up to 400 kbps. The first byte sent by an I2C-bus master contains a start bit (SDA transition from HIGH to LOW when SCL is HIGH), 7-bit slave address and whether it is a read or write transaction. The next byte is the sub-address that contains the address of the register to access. The XRA120x responds to each write with an acknowledge (SDA driven LOW by XRA1202/1202P for one clock cycle when SCL is HIGH). The last byte sent by an I2Cbus master contains a stop bit (SDA transition from LOW to HIGH when SCL is HIGH). See Figures 3 - 5 below. For complete details, see the I2C-bus specifications. FIGURE 3. I2C START AND STOP CONDITIONS SDA SCL S P START condition STOP condition FIGURE 4. MASTER WRITES TO SLAVE S SLAVE ADDRESS W COMM AND BYTE A A DATA BYTE A P W h ite b lo c k : h o s t to X R A 1 2 0 x G re y b lo c k : X R A 1 2 0 x to h o s t FIGURE 5. MASTER READS FROM SLAVE S SLAVE ADDRESS W A COMMAND BYTE A S SLAVE ADDRESS R A nDATA A LAST DATA NA P White block: host to XRA120x Grey block: XRA120x to host 230DSR00 4 Rev. 1.0.2 XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset 1.1.1 I2C-bus Addressing There could be many devices on the I2C-bus. To distinguish itself from the other devices on the I2C-bus, the XRA1202/1202P has up to 16 I2C slave addresses using the A1-A0 address lines. Table 1 below shows the different addresses that can be selected. TABLE 1: I2C ADDRESS MAP 230DSR00 A1 A0 I2C ADDRESS SCL GND 0x20 (0010 000X) SCL VCC 0x22 (0010 001X) SDA GND 0x24 (0010 010X) SDA VCC 0x26 (0010 011X) SCL SCL 0x30 (0011 000X) SCL SDA 0x32 (0011 001X) SDA SCL 0x34 (0011 010X) SDA SDA 0x36 (0011 011X) GND GND 0x40 (0100 000X) GND VCC 0x42 (0100 001X) VCC GND 0x44 (0100 010X) VCC VCC 0x46 (0100 011X) GND SCL 0x50 (0101 000X) GND SDA 0x52 (0101 001X) VCC SCL 0x54 (0101 010X) VCC SDA 0x56 (0101 011X) 5 Rev. 1.0.2 XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset I2C Read and Write 1.1.2 A read or write transaction is determined by bit-0 of the slave address. If bit-0 is ’0’, then it is a write transaction. If bit-0 is ’1’, then it is a read transaction. I2C Command Byte 1.1.3 An I2C command byte is sent by the I2C master following the slave address. The command byte indicates the address offset of the register that will be accessed. Table 2 below lists the command bytes for each register. TABLE 2: I2C COMMAND BYTE (REGISTER ADDRESS) COMMAND BYTE REGISTER NAME DESCRIPTION READ/WRITE DEFAULT VALUES 0x00 GSR - GPIO State Read-Only 0xXX 0x01 OCR - Output Control Read/Write 0xFF 0x02 PIR - Input Polarity Inversion Read/Write 0x00 0x03 GCR - GPIO Configuration Read/Write 0xFF 0x04 PUR - Input Internal Pull-up Resistor Enable/Disable Read/Write 0x00 (XRA1202) 0xFF (XRA1202P) 0x05 IER - Input Interrupt Enable Read/Write 0x00 0x06 TSCR - Output Three-State Control Read/Write 0x00 0x07 ISR - Input Interrupt Status Read 0x00 0x08 REIR - Input Rising Edge Interrupt Enable Read/Write 0x00 0x09 FEIR - Input Falling Edge Interrupt Enable Read/Write 0x00 0x0A IFR - Input Filter Enable/Disable Read/Write 0xFF 230DSR00 6 Rev. 1.0.2 XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset 1.2 Interrupts The table below summarizes the interrupt behavior of the different register settings for the XRA1202/1202P. TABLE 3: INTERRUPT GENERATION AND CLEARING GCR IER REIR FEIR IFR BIT BIT BIT BIT BIT 1 1 0 1 X 0 X 0 1 1 1 0 1 1 0 1 INTERRUPT GENERATED BY: X No interrupts enabled (default) N/A 0 A rising or falling edge on the input 1 A rising or falling edge on the input and remains in the new state for more than 1075ns Reading the GSR register or if the input changes back to its previous state (state of input during last read to GSR) 0 A rising edge on the input 1 A rising edge on the input and remains high for more than 1075ns 0 A falling edge on the input 1 A falling edge on the input and remains low for more than 1075ns 0 A rising or falling edge on the input 1 1 1 1 1 A rising or falling edge on the input and remains in the new state for more than 1075ns 0 x x x x No interrupts in output mode 230DSR00 INTERRUPT CLEARED BY: 7 Reading the GSR register Reading the GSR register Reading the GSR register N/A Rev. 1.0.2 XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset 2.0 2.1 REGISTER DESCRIPTION GPIO State Register (GSR) - Read-Only The status of P7 - P0 can be read via this register. A read will show the current state of these pins (or the inverted state of these pins if enabled via the PIR Register). Reading this register will clear an input interrupt (see Table 3 for complete details). Reading this register will also return the last value written to the OCR register for any pins that are configured as outputs (ie. this is not the same as the state of the actual output pin since the output pin can be in three-state mode). A write to this register has no effect. The MSB of this register corresponds with P7 and the LSB of this register corresponds with P0. 2.2 Output Control Register (OCR) - Read/Write When P7 - P0 are defined as outputs, they can be controlled by writing to this register. Reading this register will return the last value written to it, however, this value may not be the actual state of the output pin since these pins can be in three-state mode. The MSB of this register corresponds with P7 and the LSB of this register corresponds with P0. 2.3 Input Polarity Inversion Register (PIR) - Read/Write When P7 - P0 are defined as inputs, this register inverts the polarity of the input value read from the Input Port Register. If the corresponding bit in this register is set to ’1’, the value of this bit in the GSR Register will be the inverted value of the input pin. If the corresponding bit in this register is set to ’0’, the value of this bit in the GSR Register will be the actual value of the input pin. The MSB of this register corresponds with P7 and the LSB of this register corresponds with P0. 2.4 GPIO Configuration Register (GCR) - Read/Write This register configures the GPIOs as inputs or outputs. After power-up or after reset, the GPIOs are inputs. Setting these bits to ’0’ will enable the GPIOs as outputs. Setting these bits to ’1’ will enable the GPIOs as inputs. The MSB of this register corresponds with P7 and the LSB of this register corresponds with P0. 2.5 Input Internal Pull-up Enable/Disable Register (PUR) - Read/Write This register enables/disables the internal pull-up resistors for an input. After power-up or after reset, the internal pull-up resistors are disabled for the XRA1202. Writing a ’1’ to these bits will enable the internal pullup resistors. After power-up or after reset, the internal pull-up resistors are enabled for the XRA1202P. Writing a ’0’ to these bits will disable the internal pull-up resistors. The MSB of this register corresponds with P7 and the LSB of this register corresponds with P0. 2.6 Input Interrupt Enable Register (IER) - Read/Write This register enables/disables the interrupts for an input. After power-up or after reset, the interrupts are disabled. Writing a ’1’ to these bits will enable the interrupt for the corresponding input pins. See Table 3 for complete details of the interrupt behavior for various register settings. No interrupts are generated for outputs when GCR bit is 0. The MSB of this register corresponds with P7 and the LSB of this register corresponds with P0. 2.7 Output Three-State Control Register (TSCR) - Read/Write This register can enable/disable the three-state mode of an output. Writing a ’1’ to these bits will enable the three-state mode for the corresponding output pins. The MSB of this register corresponds with P7 and the LSB of this register corresponds with P0. 2.8 Input Interrupt Status Register (ISR) - Read-Only This register reports the input pins that have generated an interrupt. See Table 3 for complete details of the interrupt behavior for various register settings. The MSB of this register corresponds with P7 and the LSB of this register corresponds with P0. 230DSR00 8 Rev. 1.0.2 XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset 2.9 Input Rising Edge Interrupt Enable Register (REIR) - Read/Write Writing a ’1’ to these bits will enable the corresponding input to generate an interrupt on the rising edge. See Table 3 for complete details of the interrupt behavior for various register settings. The MSB of this register corresponds with P7 and the LSB of this register corresponds with P0. 2.10 Input Falling Edge Interrupt Enable Register (FEIR) - Read/Write Writing a ’1’ to these bits will enable the corresponding input to generate an interrupt on the falling edge. Writing a ’1’ to these bits will make that input generate an interrupt on the rising edge only. See Table 3 for complete details of the interrupt behavior for various register settings. The MSB of this register corresponds with P7 and the LSB of this register corresponds with P0. 2.11 Input Filter Enable Register (IFR) - Read/Write By default, the input filters are enabled (IFR = 0xFF). When the input filters are enabled, any pulse that is greater than 1075ns will generate an interrupt (if enabled). Pulses that are less than 225ns will be filtered and will not generate an interrupt. Pulses in between this range may or may not generate an interrupt. Writing a ’0’ to these bits will disable the input filter for the corresponding inputs. With the input filters disabled, any change on the inputs will generate an interrupt (if enabled). See Table 3 for complete details of the interrupt behavior for various register settings. The MSB of this register corresponds with P7 and the LSB of this register corresponds with P0. 230DSR00 9 Rev. 1.0.2 XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset ABSOLUTE MAXIMUM RATINGS Power supply voltage 3.6 Volts Supply current 160 mA Ground current 200 mA External current limit of each GPIO 25 mA Total current limit for GPIO[7:0] 100 mA Total supply current sourced by all GPIOs 160 mA Operating Temperature -40o to +85oC Storage Temperature -65o to +150oC Power Dissipation 200 mW TYPICAL PACKAGE THERMAL RESISTANCE DATA (MARGIN OF ERROR: ± 15%) Thermal Resistance (16-QFN) theta-ja = 40oC/W, theta-jc = 26oC/W Thermal Resistance (16-TSSOP) theta-ja = 105oC/W, theta-jc = 20oC/W Only XRA1202P QFN-16 is available. 230DSR00 10 Rev. 1.0.2 XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset ELECTRICAL CHARACTERISTICS DC ELECTRICAL CHARACTERISTICS UNLESS OTHERWISE NOTED: TA = -40O TO +85OC, VCC IS 1.65V TO 3.6V LIMITS SYMBOL LIMITS 1.8V 10% PARAMETER 2.5V 10% LIMITS 3.3V 10% MIN MAX MIN MAX MIN MAX UNITS CONDITIONS VIL Input Low Voltage -0.3 0.3VCC -0.3 0.3VCC -0.3 0.3VCC V Note 1 VIL Input Low Voltage -0.3 0.2 -0.3 0.5 -0.3 0.8 V Note 2 VIH Input High Voltage 1.3 VCC 1.8 VCC 2.3 VCC V Note 1 VIH Input High Voltage 1.4 5.5 1.8 5.5 2.0 5.5 V Note 2 VOL Output Low Voltage 0.4 V V V IOL = 3 mA 0.4 0.4 IOL = 3 mA IOL = 3 mA Note 3 Output Low Voltage VOL 0.5 0.5 0.5 V IOL = 8 mA Note 4 Output Low Voltage VOL 0.4 0.4 0.4 V V V IOL = 6 mA IOL = 4 mA IOL = 1.5 mA Note 5 Output High Voltage VOH 2.6 V V V 1.8 1.2 IOH = -8 mA IOH = -8 mA IOH = -8 mA Note 4 IIL Input Low Leakage Current ±10 ±10 ±10 uA IIH Input High Leakage Current ±10 ±10 ±10 uA ICC Power Supply Current 50 100 200 uA Test 1 ICC Power Supply Current 150 250 500 uA Test 2 ICCS Standby Current 1 2 5 uA Test 3 CIN Input Pin Capacitance 5 5 5 pF RGPIO GPIO pull-up resistance RRESET# Reset# pull-up resistance 60 140 60 140 60 140 k 100k 40% 35 85 35 85 35 85 k 60k 40% NOTES: 1. For I2C input signals (SDA, SCL); 2. For GPIOs, A0, A1 and A2 signals; 3. For I2C output signal SDA; 4. For GPIOs; 5. For IRQ# signal; 230DSR00 11 Rev. 1.0.2 XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset Test 1: SCL frequency is 400 KHz with internal pull-ups disabled. All GPIOs are configured as inputs. All inputs are steady at VCC or GND. Outputs are floating or in the tri-state mode. Test 2: SCL frequency is 400 KHz with internal pull-ups enabled. All GPIOs are configured as inputs. All inputs are steady at VCC or GND. Outputs are floating or in the tri-state mode. Test 3: All inputs are steady at VCC or GND to minimize standby current. If internal pull-up is enabled, input voltage level should be the same as VCC. All GPIOs are configured as inputs. SCL and SDA are at VCC. Outputs are left floating or in tri-state mode. AC ELECTRICAL CHARACTERISTICS Unless otherwise noted: TA=-40o to +85oC, Vcc=1.65V - 3.6V SYMBOL PARAMETER STANDARD MODE FAST MODE I2C-BUS MIN MAX I2C-BUS MIN MAX fSCL Operating frequency TBUF Bus free time between STOP and START 4.7 1.3 s THD;STA START condition hold time 4.0 0.6 s TSU;STA START condition setup time 4.7 0.6 s THD;DAT Data hold time 0 0 ns TVD;ACK Data valid acknowledge 0.6 0.6 s TVD;DAT SCL LOW to data out valid 0.6 0.6 ns TSU;DAT Data setup time 250 150 ns TLOW Clock LOW period 4.7 1.3 s THIGH Clock HIGH period 4.0 0.6 s TF Clock/data fall time 300 300 ns TR Clock/data rise time 1000 300 ns TSP Pulse width of spikes tolerance TD1 I2C-bus GPIO output valid 0.2 0.2 s TD4 I2C input pin interrupt valid 4 4 s TD5 I2C input pin interrupt clear 4 4 s TD15 SCL delay after reset 230DSR00 0 100 50 3 12 0 400 UNIT 50 3 kHz ns s Rev. 1.0.2 XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset FIGURE 6. I2C-BUS TIMING DIAGRAM START condition (S) Protocol Bit 7 MSB (A7) T SU;STA T LOW Bit 0 LSB (R/W) Bit 6 (A6) T HIGH Acknowledge (A) STOP condition (P) 1/F SCL SCL TF TR T BUF T SP SDA T HD;STA T SU;DAT T HD;DAT T VD;DAT T VD;ACK T SU;STO FIGURE 7. WRITE TO OUTPUT SDA SLAVE ADDRESS W A COMMAND BYTE A DATA A T D1 GPIOn FIGURE 8. GPIO PIN INTERRUPT A C K from slave SDA SLAVE ADDRESS W A COMMAND BYTE A A C K from slave S S LA V E ADDRESS R A A C K from m aste r DATA A P IN T # TD4 TD5 Px 230DSR00 13 Rev. 1.0.2 XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset MECHANICAL DIMENSIONS (16 PIN QFN - 3 X 3 X 0.9 mm, 0.50 PITCH) 16X L TOP VIEW 16X b BOTTOM VIEW SIDE VIEW TERMINAL DETAILS Drawing No.: POD- 00000138 Revision: A Note: The control dimension is in millimeter. 230DSR00 14 Rev. 1.0.2 XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset RECOMMENDED LAND PATTERN AND STENCIL (16 PIN QFN - 3 X 3 X 0.9 mm, 0.50 PITCH) TYPICAL RECOMMENDED LAND PATTERN TYPICAL RECOMMENDED STENCIL Drawing No.: POD- 00000138 Revision: A Note: The control dimension is in millimeter. 230DSR00 15 Rev. 1.0.2 XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset mechanical Dimensions (16 pin TSSOP - 4.4 mm) - Only XRA1202P QFN-16 is available. Top View Front View Side View POD-00000117 Drawing No: Revision: A Note: The control dimension is in millimeter. 230DSR00 16 Rev. 1.0.2 XRA1202/1202P 8-bit I2C/SMBUS GPIO Expander with Reset REVISION HISTORY DATE REVISION DESCRIPTION September 2011 1.0.0 Initial released datasheet for XRA1202. April 2013 1.0.1 Added new XRA1202P part numbers: XRA1202PIL16-F and XRA1202PIL16TR-F. March 9, 2022 1.0.2 Updated:  "GPIO Configuration Register (GCR) - Read/Write" section.  "Input Internal Pull-up Enable/Disable Register (PUR) - Read/Write" section.  "Input Interrupt Enable Register (IER) - Read/Write" section.  "Mechanical Dimensions (16 pin QFN)" figure.  "Recommended and Pattern and Stencil (16 pin QFN)" figure.  "Mechanical Dimensions (16 pin TSSOP)" figure. Removed:  In the "Ordering Information" table, XRA1202PIL16-F, XRA1202IL16-F, XRA1202IL16TR-F, XRA1202IG16-F, and XRA1202IG16TR-F obsolete part numbers. Corporate Headquarters: 5966 La Place Court, Suite 100 Carlsbad, CA 92008 Tel.:+1 (760) 692-0711 Fax: +1 (760) 444-8598 www.maxlinear.com The content of this document is furnished for informational use only, is subject to change without notice, and should not be construed as a commitment by MaxLinear, Inc. MaxLinear, Inc. assumes no responsibility or liability for any errors or inaccuracies that may appear in the informational content contained in this guide. Complying with all applicable copyright laws is the responsibility of the user. Without limiting the rights under copyright, no part of this document may be reproduced into, stored in, or introduced into a retrieval system, or transmitted in any form or by any means (electronic, mechanical, photocopying, recording, or otherwise), or for any purpose, without the express written permission of MaxLinear, Inc. Maxlinear, Inc. does not recommend the use of any of its products in life support applications where the failure or malfunction of the product can reasonably be expected to cause failure of the life support system or to significantly affect its safety or effectiveness. Products are not authorized for use in such applications unless MaxLinear, Inc. receives, in writing, assurances to its satisfaction that: (a) the risk of injury or damage has been minimized; (b) the user assumes all such risks; (c) potential liability of MaxLinear, Inc. is adequately protected under the circumstances. MaxLinear, Inc. may have patents, patent applications, trademarks, copyrights, or other intellectual property rights covering subject matter in this document. Except as expressly provided in any written license agreement from MaxLinear, Inc., the furnishing of this document does not give you any license to these patents, trademarks, copyrights, or other intellectual property. MaxLinear, the MaxLinear logo, any MaxLinear trademarks (MxL, Full-Spectrum Capture, FSC, G.now, AirPHY, Puma, and AnyWAN), and the MaxLinear logo on the products sold are all property of MaxLinear, Inc. or one of MaxLinear’s subsidiaries in the U.S.A. and other countries. All rights reserved. Other company trademarks and product names appearing herein are the property of their respective owners. © 2022 MaxLinear, Inc. All rights reserved. 230DSR00 17 Rev. 1.0.2
XRA1202IG16TR-F 价格&库存

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