AW35711QNR

AW3571X Jan. 2026 V1.8 AW3571X Two-Channel High-Speed Differential 1:2 Switch General Description ⚫ Operating voltage 2.7 to 3.6V ⚫ Compatible with USB3.1, PCIe-Gen3, MIPI DSI/CSI ⚫ Data rates up to 10Gbps ⚫ -3dB bandwidth: The AW3571X is a high-speed differential 1:2 switch. It can support high speed data transmission protocols such as USB 3.1 Gen 1 and Gen 2, PCIGen3, MIPI DSI/CSI. The device supports switching on differential channels between Port B or Port C to Port A under the control of pin SEL. AW35710QNR Typ. 12GHz AW35711QNR Wide common mode voltage 0 to 2.2V ⚫ Insertion loss: The AW3571X is an analog differential passive switch. The device can operate on any high-speed interface applications in the range of 0 to 2.2V common mode voltage. With employing adaptive tracking, it ensures that the channel holds constant within the entire common mode voltage range. fid ⚫ en Typ. 12GHz tia l Features -1.1dB @4GHz AW35710QNR -1.2dB @4GHz AW35711QNR Return loss: -20dB @4GHz ⚫ Off isolation: -22dB @4GHz ⚫ QFN 4.5mm X2.5mm X0.5mm-20L package cC on ⚫ QFN 2.0mm X2.0mm X0.55mm-18L package Applications Desktop and Notebook PCs Mobile phones ini Type-C Ecosystem Typical Application Circuit C5 SSTx- C1 C2 1 A0p B0p 16 B0n 15 2 A0n SSRx+ 4 A1p SSRx- 5 A1n 18 GPIO VCC 7 SSTx+ SSTx1+ VCC 17 C4 10μF 0.1μF 0.01μF AW35711 OEn SEL 6 R1 10KΩ CC Controller 12 GND C3 3 GND Aw VCC C0p 11 C0n 10 B1p 14 B1n 13 C1p 9 C1n 8 A2 A3 SSTx1- B2 SSTx2+ B3 SSTx2B11 SSRx1+ B10 SSRx1A11 GND A1 GND B12 GND A12 GND B1 A10 SSRx2+ SSRx2A5 CC1 B5 CC2 USB C Typical Application Circuit of AW35711 www.awinic.com 1 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 VCC C2 SSTx- 3 A0p 4 A0n B0p 19 A2 SSTx1+ B0n 18 A3 SSTx1- C0p 15 B2 SSTx2+ C0n 14 SSRx+ 7 A1p SSRx- 8 A1n AW35710 B1p 17 B1n 16 GND GND B12 B11 SSRx1+ GND A12 GND B1 B10 SSRx1- A11 SSRx2+ A10 SSRx2A5 CC1 B5 CC2 USB C fid SEL 20 9 11 GND R1 10KΩ C1n 12 5 GND GPIO OEn B3 SSTx2- en C1p 13 2 GND A1 tia l C1 SSTx+ VCC 10 C5 10μF 0.1μF 0.01μF VCC 1 C4 VCC 6 C3 cC on CC Controller Aw ini Typical Application Circuit of AW35710 www.awinic.com 2 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 Pin Configuration And Top Mark AW35710QNR (Top View) A0p 3 18 B0n A0n 4 17 B1p GND 5 16 B1n VCC 6 A1p 7 14 C0n A1n 8 13 C1p SEL 9 12 C1n NC tia l 19 B0p en 2 GPS5 XXXX OEn 15 C0p VCC GND 10 11 cC on fid 1 VCC 20 GND AW35710QNR Marking (Top View) GPS5 – AW35710QNR XXXX - Production Tracing Code AW35711QNR (Top View) AW35711QNR Marking (Top View) ini OEn VCC B0p B0n 18 A0n 2 17 16 Aw 1 GND 3 A1p 4 A1n 5 15 GND 6 7 8 14 B1p 13 B1n 12 GND 11 C0p 10 C0n 9 SEL VCC C1n C1p www.awinic.com WYNX XXXX A0p WYNX – AW35711QNR XXXX - Production Tracing Code 3 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 Pin Definition Pin No. NAME DESCRIPTION Power Chip enable L: Normal operation H: Shutdown AW35711 1 17 VCC 2 18 OEn 3 1 A0p Port A, channel 0, high-speed positive signal 4 2 A0n Port A, channel 0, high-speed negative signal 5 3 GND Ground VCC Power en fid 6 tia l AW35710 4 A1p Port A, channel 1, high-speed positive signal 8 5 A1n 9 6 SEL Port A, channel 1, high-speed negative signal Port select pin. L: Port A to Port B H: Port A to Port C 10 7 11 12 12 8 13 9 14 10 15 11 16 13 Power GND Ground C1n Port C, channel 1, high-speed negative signal C1p Port C, channel 1, high-speed positive signal C0n Port C, channel 0, high-speed negative signal C0p Port C, channel 0, high-speed positive signal B1n Port B, channel 1, high-speed negative signal 14 B1p Port B, channel 1, high-speed positive signal 15 B0n Port B, channel 0, high-speed negative signal 16 B0p Port B, channel 0, high-speed positive signal GND Ground Aw 18 20 VCC ini 17 19 cC on 7 www.awinic.com 4 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 Functional Block Diagram B0p A0n B0n A1p B1p tia l A0p A1n B1n C0p C1p C1n fid en C0n cC on SEL Aw ini OEn www.awinic.com 5 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 Typical Application Circuits VCC C1 SSTx+ C2 SSTx- B0n 18 3 A0p C0p 15 4 A0n C0n 14 9 SEL GND B1 en OEn GND A12 B11 SSRx1+ B10 SSRx1- C1p 13 A11 SSRx2+ C1n 12 A10 SSRx2- cC on R1 10KΩ 2 GND B12 B3 SSTx2- fid GPIO GND A1 B2 SSTx2+ B1n 16 GND 8 A1n B1p 17 A3 SSTx1- 20 SSRx- AW35710 11 GND 7 A1p 5 GND SSRx+ A2 SSTx1+ B0p 19 tia l 10μF 0.1μF 0.01μF VCC 10 C5 VCC 1 C4 VCC 6 C3 A5 CC1 B5 CC2 USB C CC Controller AW35710 Application Circuit: Down Facing Port for USB3.1 Type C Connector C5 VCC 7 ini C1 SSTx+ C2 SSTx- 1 A0p 2 A0n 4 A1p SSRx- 5 A1n Aw SSRx+ GPIO B0p 16 B0n 15 18 AW35711 OEn R1 10KΩ SEL 6 CC Controller 12 GND C4 10μF 0.1μF 0.01μF VCC 17 C3 3 GND VCC C0p 11 C0n 10 B1p 14 B1n 13 C1p 9 C1n 8 SSTx1+ A2 A3 SSTx1- B2 SSTx2+ B3 SSTx2B11 SSRx1+ B10 SSRx1A11 GND A1 GND B12 GND A12 GND B1 A10 SSRx2+ SSRx2A5 CC1 B5 CC2 USB C AW35711 Application Circuit: Down Facing Port for USB3.1 Type C Connector Notice for typical application circuits: 1.If AC couple is needed, the capacitance of C1 and C2 is recommended 100nF. www.awinic.com 6 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 Ordering Information Temperature Package Marking Moisture Sensitivity Level Environmental Information Delivery Form AW35710QNR -40℃～85℃ QFN 4.5mmX2.5mm20L GPS5 MSL1 ROHS+HF 9000 units/ Tape and Reel AW35711QNR -40℃～85℃ QFN 2.0mmX2.0mm18L WYNX MSL1 tia l Part Number 4500 units/ Tape and Reel Aw ini cC on fid en ROHS+HF www.awinic.com 7 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 Absolute Maximum Ratings(NOTE1) PARAMETERS RANGE Supply voltage range VCC -0.5V to 4V Differential I/O -0.5V to 2.7V Control pins -0.5V to VCC tia l Input voltage range Junction-to-ambient thermal resistance θJA(NOTE2) 107°C /W -40°C to 85°C Operating free-air temperature range Maximum operating junction temperature TJMAX -65°C to 150°C Lead temperature (soldering 10 seconds) ESD fid HBM(NOTE3) en Storage temperature TSTG 150°C CDM(NOTE4) 260°C ±2kV ±1.5kV Latch-Up cC on Test condition(NOTE5) +IT：200mA -IT：-200mA NOTE1: Conditions out of those ranges listed in "absolute maximum ratings" may cause permanent damages to the device. In spite of the limits above, functional operation conditions of the device should within the ranges listed in "recommended operating conditions". Exposure to absolute-maximum-rated conditions for prolonged periods may affect device reliability. NOTE2: Thermal resistance from junction to ambient is highly dependent on PCB layout. NOTE3: All pins. Test Condition: ANSI/ESDA/JEDEC JS-001 2017. ini NOTE4: All pins. Test Condition: JEDEC EIA/JESD22-C101F . NOTE5: All pins. Test Condition: JEDEC STANDARD NO.78E NOVEMBER 2016 . Recommended Operating Conditions PARAMETERS RANGE VCC Supply voltage 2.7V to 3.6V VIH Input high voltage (SEL, OEn pins) Min 1.2V Input low voltage (SEL, OEn pins) Max 0.5V Vdiff High-speed signal pins differential voltage 0V to 1.8V VCM High speed signal pins common mode voltage 0V to 2.2V TA Operating free-air temperature -40°C to 85°C VIL Aw SYMBOL www.awinic.com 8 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 DC Electrical Characteristics VCC=2.7 to 3.6V, OEn=0, TA=-40°C to 85°C (unless otherwise noted) ICC ISTDN TEST CONDITION Device active current Device shutdown current TYP MAX UNIT VCC=2.7 to 3.6V, OEn=0 0.2 0.6 mA VCC=2.7V, OEn=VCC 0.6 10 μA VCC=3.3V, OEn=VCC 2 20 μA 5 30 μA CON Output ON capacitance COFF Output OFF capacitance RON Output ON resistance VCC=2.7 to 3.6V, VCM=0 to 2V IO=-8mA On-resistance match between pairs of the same channel VCC=2.7 to 3.6V, -0.35V≤VIN On-resistance flatness RON(MAX)-RON(MIN) VCC=2.7 to 3.6V, -0.35V≤VIN pF 0.8 pF 7.5 12 Ω 0.1 0.5 Ω 1 Ω ≤2.35V cC on RFLAT_ON ≤2.35V,IO=-8mA 0.6 fid ΔRON en VCC=3.6V, OEn=VCC MIN tia l PARAMETER Input high current, control pins(SEL, OEn) 1 μA IIL,CTRL Input low current ,control pins(SEL, OEn) 1 μA IIH,HS Input high current, highspeed pins[Ax/Bx/Cx][p/n] VIN=2V for selected port, A and B with SEL=0,and A and C with SEL=VCC 1 μA IIH,HS Input high current, highspeed pins[Ax/Bx/Cx][p/n] VIN=2V for non-selected C with SEL=0, and B with SEL=VCC(1) IIL,HS Input low current, highspeed pins[Ax/Bx/Cx][p/n] ini IIH,CTRL 160 μA Aw 1 μA (1) There is a 20-kΩ pull-down in non-selected port. www.awinic.com 9 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 AC Electrical Characteristics VCC=2.7 to 3.6V, OEn=0, TA=-40°C to 85°C (unless otherwise noted) PARAMETER TEST CONDITION f=4GHz IL f=5GHz Differential insertion loss f=4GHz AW35711 AW35710 -3dB bandwidth fid AW35711 -1.7 -1.1 XTALK -1.2 -2.5 -1.5 9 12 GHz 9 12 GHz -20 f=5GHz -16 -14 f=4GHz -22 -20 f=5GHz -20 -18 f=4GHz -42 -38 dB Differential crosstalk dB -36 45 70 ps RL=50Ω 30 250 ns Switching time SEL to Switch OFF RL=50Ω 40 250 ns Switching time OEn to Switch ON RL=50Ω 20 30 μs Switching time OEn to Switch OFF RL=50Ω 1.3 2.0 μs ini -40 13 tSEL_ON Switching time SEL to Switch ON Aw Switch propagation delay (1) (2) tOEn_OFF -16 Differential OFF isolation tPD tOEn_ON dB dB f=5GHz tSEL_OFF dB -1.7 cC on OIRR Differential return loss UNIT -1.4 f=4GHz RL MAX -1.8 en f=5GHz BW TYP tia l AW35710 MIN tSK_INTRA Intra-pair output skew 0.5 5.3 6 ps tSK_INTER Inter-pair output skew 0.5 8 20 ps (1) The coaxial cable’s bandwidth should > 8GHz. (2) When test tPD characteristic, should keep the input and output coaxial cable’s characteristic impedance same. www.awinic.com 10 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 Typical Characteristics Test Information 50% 50% tia l SEL 90% 10% en VOUT fid tSEL_ON VIN Swtich on and off cC on Figure1 tSEL_OFF 50% 50% VOUT tPD ini Vp 50% Aw Vn TSK_INTRA B0/C0 VOUT 50% B1/C1 VOUT 50% tSK_INTER Figure2 www.awinic.com 11 Timing Diagrams ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 Network Analyzer Network Analyzer P2 P4 P1 P3 P2 P4 P1 P3 VCC tia l VCC B0n A0n B0p C0n A0p C0p en RL RL B0n A0n fid C0n RL VCC B0p A0p C0p RL B1p A1p OEn cC on Control GND B1n C1n RL ini SEL OEn Control GND RL=50Ω All unused ports are connected to GND through a 50Ω pull-down resistors Aw www.awinic.com RL A1n RL=50Ω All unused ports are connected to GND through a 50Ω pull-down resistors Figure3 C1p Isolation Figure4 12 Crosstalk ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 Network Analyzer P2 P4 P1 P3 B0p A0p C0p en RL tia l VCC B0n A0n C0n fid RL SEL OEn cC on Control GND RL=50Ω All unused ports are connected to GND through a 50Ω pull-down resistors -3dB Bandwidth, Differential return loss, Differential insertion loss Aw ini Figure5 www.awinic.com 13 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 Typical Curve TA=25°C 0 4GHz -1.2dB 5GHz -1.45dB tia l 12.3GHz -3dB -9 1E+05 en -6 1E+06 1E+07 fid SDD21 (dB) -3 1E+08 1E+09 1E+10 Frequency (Hz) ini cC on -3dB Bandwidth Diagram Aw Before AW35710QNR www.awinic.com After AW35710QNR 10Gbps Output Eye Diagram 14 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 Detailed Functional Description The AW3571X is a class of analog differential passive switch. The device can operate on any high-speed interface applications in the range of 0 to 2.2V common mode voltage. With employing adaptive tracking ,it ensures that the channel holds constant within the entire common mode voltage range. tia l The device has excellent dynamic characteristics, which allows high-speed switching with minimum attenuation with little extra jitter to the signal eye diagram. Application Information en The AW3571X is a high-speed bidirectional passive switch, which can be configured in either mux or demux switch to meet the requirement of any high-speed interface application. The AW3571X supports signals with common mode voltage from 0V to 2.2V and differential amplitude up to 1800mVpp. The device adopts adaptive tracking to ensure that the channel remains unchanged in the whole common mode voltage range. fid Many interfaces require AC coupling between the transmitter and receiver. The 0402 capacitor is best, and the value should match for the signal pairs. Place them along the TX pairs on the system board. The best way to place AC coupling capacitors is to keep them symmetric on the top layer of the board. VCC C5 C1 SSTx+ C2 SSTxSSRx+ SSRx- 3 A0p 4 A0n AW35710 7 A1p SEL GND 9 20 OEn 11 GND R1 10KΩ 2 5 GND ini 8 A1n Aw GPIO VCC 10 10μF 0.1μF 0.01μF VCC 1 VCC 6 C4 cC on C3 B0p 19 A2 SSTx1+ B0n 18 A3 SSTx1- C0p 15 B2 SSTx2+ C0n 14 B3 SSTx2- B1p 17 B11 SSRx1+ B1n 16 B10 SSRx1- C1p 13 A11 SSRx2+ C1n 12 A10 SSRx2A5 CC1 B5 CC2 GND A1 GND B12 GND A12 GND B1 USB C CC Controller AW35710 Application Circuit: Down Facing Port for USB3.1 Type C Connector www.awinic.com 15 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 PCB Layout Information Layout Guidelines To obtain the optimal performance of AW3571X, PCB layout should be considered carefully. Here are some guidelines: tia l 1. Place supply bypass capacitors as close to VCC and GND pin as possible and avoid placing the bypass capacitors near the high-speed traces. 2. The characteristic impedance of the traces must match that of the receiver and transmitter to maintain signal integrity. en 3. Route the high-speed signals using a minimum amount of vias and corners which reduces signal reflections and impedance changes. When it becomes necessary to make the traces turn 90°, use an arc instead of making a single 90°turn. fid 4. Do not route high-speed traces under or near crystals, oscillators, clock signal generators, switching regulators, mounting holes, magnetic devices or ICs that use or duplicate clock signals. cC on 5. Avoid stubs on the high-speed signal lines because they cause signal reflections. 6. Route all high-speed signal traces over continuous GND planes, with no interruptions. 7. High speed differential traces ensures equal width, line length and line spacing. Layout Example AW35711 VCC U1 Connected to GND or GPIO B0P OEn A0N C2 GND C4 C3 Connected to GND or GPIO C1 VCC B0P B0N B1P A0N B1N GND GND C0P GND A1P C0P A1N C0N C0N SEL A1N C1P SEL C1N VCC C1N C1P Connected to GPIO GND VCC OEN A0P C2 B1N A1P Connected to GPIO C3 B1P Aw VCC B0N ini A0P C1 GND AW35710 C4 Power Layer GND Layer Top Layer Via to Power Via to GND Top GND www.awinic.com 16 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 Tape And Reel Information QFN 4.5mmX2.5mm-20L TAPE DIMENSIONS REEL DIMENSIONS P1 P0 P2 tia l K0 W B0 D1 A0 en Cavity fid A0：Dimension designed to accommodate the component width B0：Dimension designed to accommodate the component length K0：Dimension designed to accommodate the component thickness W：Overall width of the carrier tape P0：Pitch between successive cavity centers and sprocket hole P1：Pitch between successive cavity centers P2：Pitch between sprocket hole D1：Reel Diameter D0：Reel Width D0 Pin 1 cC on QUADRANT ASSIGNMENTS FOR PIN 1 ORIENTATION IN TAPE Q1 Q2 Q1 Q2 Q1 Q2 Q1 Q2 Q3 Q4 Q3 Q4 Q3 Q4 Q3 Q4 Sprocket Holes User Direction of Feed Aw ini Pocket Quadrants www.awinic.com 17 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 QFN 2.0mmX2.0mm-18L TAPE DIMENSIONS REEL DIMENSIONS P1 P0 P2 K0 tia l W D1 B0 A0 en Cavity fid A0：Dimension designed to accommodate the component width B0：Dimension designed to accommodate the component length K0：Dimension designed to accommodate the component thickness W：Overall width of the carrier tape P0：Pitch between successive cavity centers and sprocket hole P1：Pitch between successive cavity centers P2：Pitch between sprocket hole D1：Reel Diameter D0：Reel Width D0 Pin 1 cC on QUADRANT ASSIGNMENTS FOR PIN 1 ORIENTATION IN TAPE Q1 Q2 Q1 Q2 Q1 Q2 Q1 Q2 Q3 Q4 Q3 Q4 Q3 Q4 Q3 Q4 Sprocket Holes User Direction of Feed Aw ini Pocket Quadrants www.awinic.com 18 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 Package Description QFN 4.5mmX2.5mm-20L PIN1 CORNER cC on fid 4.50±0.10 en tia l 2.50±0.10 TOP VIEW 0.50±0.05 0.152REF 0~0.05 SIDE VIEW 0.50TYP 4X0.88REF 10 9 11 1.00±0.10 12 3.00±0.10 Aw ini 4X0.38REF 20X(0.24+0.05/-0.07) PKG 0.50TYP 0.30REF 2 19 20X(0.40±0.05) 1 20 PKG BOTTOM VIEW Unit: mm www.awinic.com 19 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 QFN 2.0mmX2.0mm-18L 2.00±0.05 tia l PIN1 CORNER en 2.00±0.05 fid Top View 0.55±0.05 cC on 0.10REF 0.00~0.05 Side View PKG 6 9 10 ini 5 18X(0.20±0.05) Aw 1.00±0.05 PKG 0.4TYP 0.30REF 1 15 18 14 18X(0.25±0.05) 1.00±0.05 Bottom View Unit：mm www.awinic.com 20 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 Land Pattern Data QFN 4.5mmX2.5mm-20L tia l 2.70REF 1.00REF 0.74REF 20 en 1 19 2 ini cC on fid 20X0.24TYP SYMM 3.00REF 4.70REF 16X0.50TYP 9 12 Aw 10 11 20X0.50TYP 0.05 MAX All AROUND SYMM SOLDER MASK OPENING METAL 0.05 MIN All AROUND SOLDER MASK OPENING METAL SOLDER MASK DEFINED NON SOLDER MASK DEFINED Unit：mm www.awinic.com 21 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 QFN 2.0mmX2.0mm-18L 2.20REF tia l 15 18 1 14 1.00REF en SYMM 0.40TYP fid 1.00REF 2.20REF 18X0.35TYP cC on 8X0.15REF 5 10 9 6 8X0.15REF SYMM 18X0.20TYP SOLDER MASK OPENING Aw METAL ini 0.05 MAX All AROUND NON-SOLDER MASK DEFINED www.awinic.com 0.05 MIN ALL AROUND METAL UNDER SOLDER MASK SOLDER MASK OPENING SOLDER MASK DEFINED Unit: mm 22 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 Revision History Version Date Change Record V1.0 July 2020 Officially released V1.1 November 2020 V1.2 January 2021 V1.3 April 2021 V1.4 September 2021 Add AW35711QNR V1.5 November 2021 Add 2.7V and 3.6V characteristics V1.6 November 2021 Add tPD characteristic’s test condition V1.7 June 2022 Update Pin Configuration and Absolute Maximum Ratings V1.8 Jan 2026 Update -3dB bandwidth and Differential insertion loss Add tPD, tSK_INTRA, tSK_INTER min characteristics tia l Add ΔRON TYP characteristic Aw ini cC on fid en Update the DC and AC Electrical Characteristics www.awinic.com 23 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved. AW3571X Jan. 2026 V1.8 Disclaimer All trademarks are the property of their respective owners. Information in this document is believed to be accurate and reliable. However, Shanghai AWINIC Technology Co., Ltd (AWINIC Technology) does not give any representations or warranties, expressed or implied, as to the accuracy or completeness of such information and shall have no liability for the consequences of use of such information. tia l AWINIC Technology reserves the right to make changes to information published in this document, including without limitation specifications and product descriptions, at any time and without notice. Customers shall obtain the latest relevant information before placing orders and shall verify that such information is current and complete. This document supersedes and replaces all information supplied prior to the publication hereof. en AWINIC Technology products are not designed, authorized or warranted to be suitable for use in medical, military, aircraft, space or life support equipment, nor in applications where failure or malfunction of an AWINIC Technology product can reasonably be expected to result in personal injury, death or severe property or environmental damage. AWINIC Technology accepts no liability for inclusion and/or use of AWINIC Technology products in such equipment or applications and therefore such inclusion and/or use is at the customer’s own risk. fid Applications that are described herein for any of these products are for illustrative purposes only. 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Aw ini Resale of AWINIC components or services with statements different from or beyond the parameters stated by AWINIC for that component or service voids all express and any implied warranties for the associated AWINIC component or service and is an unfair and deceptive business practice. AWINIC is not responsible or liable for any such statements. www.awinic.com 24 ©2026 Shanghai Awinic Technology Co., Ltd. All Rights Reserved.