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RV1S9353ACCSP-120V#SC0

RV1S9353ACCSP-120V#SC0

  • 厂商:

    RENESAS(瑞萨)

  • 封装:

    SMD8,鸥翼

  • 描述:

    三角积分调制器 13.8 b

  • 数据手册
  • 价格&库存
RV1S9353ACCSP-120V#SC0 数据手册
Preliminary Data Sheet RV1S9353A R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Optically Isolated Delta-Sigma Modulator DESCRIPTION The RV1S9353A is an optically isolated Delta – Sigma Modulator that includes high-Accuracy A/D convertor and converts an analog voltage input into one-bit data stream. The RV1S9353A provides Effective Number of Bit (ENOB) is 13.8bits (typ) with a Sinc3 digital filter. The RV1S9353A is designed specifically for high common mode transient immunity (CMR) and high linearity (nonlinearity). The RV1S9353A is suitable for current sensing and voltage sensing in motor drives. FEATURES Internal Reference Voltage Tolerance (GE = 0.5 % TYP.) Effective Number of Bit (ENOB = 13.8 bits TYP.) Operating Ambient Temperature (TA = 40 to 110 C) Non-linearity (INL = 25 LSB MAX.) Input Offset Voltage (VOS = 2 mV MAX.) Input Offset Voltage Drift vs. Temperature (dVos/dTA = 2.5 V/C MAX.) Output Clock Frequency (fCLK = 10 MHz TYP.) High common mode transient immunity (CMR = 15 kV/s MIN.) Long creepage distance (8 mm MIN.) Embossed tape product: RV1S9353ACCSP-120x#KC0: 2 000 pcs/reel Pb-Free product Safety standards • UL approved: No. UL1577, Double protection • CSA approved: CAN/CSA-C22.2 No.62368-1, Reinforced insulation • DIN EN 60747-5-5 approved (Option) PIN CONNECTION (Top View) 8 7 6 Decorder 5 SHIELD • • • • • • • • • • • • A/D Converter 1 2 3 1. VDD1 2. VIN+ 3. VIN4. GND1 5. GND2 6. MDAT 7. MCLK 8. VDD2 4 APPLICATIONS • AC Servo, inverter • Solar inverter • Measurement equipment Start of mass production Mar.2020 R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 1 of 19 RV1S9353A Chapter Title PACKAGE DIMENSIONS (UNIT: mm) Lead Bending Type (Gull-wing) For Long Creepage Distance (Surface Mount) 5.85±0.25 5 1 4 0.2±0.15 S 0.25±0.15 11.5±0.3 (7.62) (0.82) 3.5±0.2 3.7±0.25 6.8±0.25 8 0.4±0.1 0.25 M 0.75±0.25 1.27 0.1 S Weight: 0.316g (typ.) PHOTOCOUPLER CONSTRUCTION Parameter MIN. Air Distance Creepage Distance 8 mm 8 mm Isolation Distance 0.4 mm R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 2 of 19 RV1S9353A Chapter Title MARKING EXAMPLE R 9353 N131 No. 1 pin Mark Company Initial Type Number * Assembly Lot N 1 31 Week Assembled Year Assembled (Last 1 Digit) Rank Code *Applicable type numbers are listed below. *) RV1S 9353 ACCSP-120x Marking type number. “RV1S” and “ACCSP-120x” are omitted from original type number. ORDERING INFORMATION Part Number Order Number RV1S9353ACCSP120C RV1S9353ACCSP -120C#SC0 RV1S9353ACCSP120V Solder Plating Specification Pb-Free (Ni/Pd/Au) Packing Style 20 pcs (Tape 20 pcs cut) RV1S9353ACCSP -120C#KC0 Embossed Tape 2 000 pcs/reel RV1S9353ACCSP -120V#SC0 20 pcs (Tape 20 pcs cut) RV1S9353ACCSP -120V#KC0 Embossed Tape 2 000 pcs/reel Safety Standard Approval Standard products (UL, CSA approved) Application Part Number*1 RV1S9353A UL, CSA, DIN EN 60747-5-5 approved *1 For the application of the Safety Standard, following part number should be used. R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 3 of 19 RV1S9353A Chapter Title ABSOLUTE MAXIMUM RATINGS (TA = 25C, unless otherwise specified) Parameter Symbol Ratings Unit TA 40 to 110 C Tstg VDD1, VDD2 55 to 150 6 C V VIN, VIN VIN, VIN 2 to VDD1 0.5 6 to VDD1 0.5 V V MCLK, MDAT BV 6 5 000 V Vr.m.s. Operating Ambient Temperature Storage Temperature Supply Voltage Input Voltage*1 Input Voltage*1,2 Output Voltage Isolation Voltage*3 *1 *2 *3 The input voltage of Vin+ and Vin- terminals is less than 6V. Duration of time is within 2 seconds. AC voltage for 1 minute at TA = 25C, RH = 60% between input and output. Pins 1-4 shorted together, 5-8 shorted together. RECOMMENDED OPERATING CONDITIONS Parameter Operating Ambient Temperature Supply Voltage VDD1 Supply Voltage VDD2 Input Voltage (Accurate and Linear) *1 Symbol MIN. TA 40 VDD1 VDD2 4.5 3.0 VIN, VIN 200 TYP. 5 MAX. Unit 110 C 5.5 5.5 V V 200 mV *1 Using VIN = 0 V (to be connected to GND1) is recommended. Avoid using VIN of 2.5 V or more, because the internal test mode is activated when the voltage VIN reaches more than 2.5 V. R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 4 of 19 RV1S9353A Chapter Title ELECTRICAL CHARACTERISTICS (TYP.: TA = 25C, VIN = VIN = 0 V, VDD1 = VDD2 = 5 V, MIN., MAX.: refer to RECOMMENDED OPERATING CONDITIONS, unless otherwise specified) Parameter Symbol Input Supply Current IDD1 Output Supply Current IDD2 Input Bias Current IIN Low Level Saturated Output Voltage High Level Saturated Output Voltage VOL VOH Output Short-circuit Current |IOSC| Equivalent Input Resistance RIN Output Clock Frequency fCLK Conditions VIN = -320 ~ +320 mV VDD2 = 5 V 15.5 mA 8 mA mA VDD1 = VDD2 = 5 V, VIN+ = 0 V 2.5 IOUT = 1.6 mA IOUT = 200 A VDD2 -0.6 18 VIN+ or VIN- single ended 500 9 f = 1 MHz tHDDAT 10 10 0.7 15 0.6 V 40 mA V k 11 MHz  11 10 VCM = 1 kV, TA = 25C A VDD2 -0.1 VOUT = VDD2 or VOUT = GND2 VI-O = 1 kVDC, TA = 25C *1 11.5 7 CI-O CMR Unit 5 RI-O Common Mode Transient Immunity MAX. 4.5 Isolation Capacitance *2 TYP. VDD2 = 3.3 V Isolation Resistance Data Hold Time *1 MIN. pF ns 25 kV/s The data hold time (tHDDAT) is that the data (MDAT) will stay stable following the rising edge of the clock (MCLK). tHDDAT is shown in the below timing chart. Fig. Timing Chart *2 Common Mode Transient Immunity (CMR) is specified by the rate of rise / fall of a pulse applied between GND1 on the input side and GND2 on the output side (pins 4 and 5) by using the circuit shown in Fig. 6 CMR Test Circuit. CMR is defined at the point that clock signals are corrupted. R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 5 of 19 RV1S9353A Chapter Title ELECTRICAL CHARACTERISTICS (Tested with Sinc3 filter, 256 decimation ratio.) (TYP.: TA = 25C, VIN = VIN = 0 V, VDD1 = VDD2 = 5 V, MIN., MAX.: refer to RECOMMENDED OPERATING CONDITIONS, unless otherwise specified) Parameter TYP. MAX. Unit 3 15 LSB TA = 85 ~ 110C, 25 LSB TA = -40 ~ 110C, VIN+ = -200 ~ +200 mV 0.9 LSB 0 2 mV dVOS/dTA 0.2 2.5 V/C dVOS/dVDD1 40 V/V Internal Reference Voltage *6 VREF 320 mV Absolute Internal Reference Voltage Tolerance GE Integral Non-linearity *3 Symbol INL Differential Non-linearity *4 DNL Input Offset Voltage *5 VOS Input Offset Voltage Drift vs. Temperature Input Offset Voltage Drift vs. Supply Voltage Internal Reference Voltage Drift vs. Temperature Internal Reference Voltage Drift vs. Supply Voltage Input DC Common-Mode Rejection Ratio *7 Conditions MIN. TA = -40 ~ 85C, VIN+ = -200 ~ +200 mV 2 TA = 25C TA = 40 ~ 110C 0.5 0.5 % 1 1 % 60 ppm/C dVREF/dTA 30 dVREF/dVDD1 0.2 mV/V CMRRIN 80 dB *3 Integral non-linearity (INL) is the maximum deviation between the ideal conversion line (best-fit line) and measured points. The best-fit line is obtained by using the least-squares method from the differential input voltage (VIN+  VIN: VIN+ = 200 mV to 200 mV, VIN = 0 V) and the output data that is measured under the circuit shown in Fig. 7 INL Test Circuit. INL is defined as the ratio (%) obtained by dividing [Half of the peak to peak value of the deviation] by [full-scale differential input voltage 400 mV]. For example, if the differential input voltage is VIN+ = 200 mV to 200 mV, and the peak to peak value of the deviation is 0.49 mV, Integral non-linearity is obtained as follows: INL = 0.49 mV/(2  400 mV) = 0.06% And Input Full-Scale 640 mV (320 to 320 mV) of RV1S9353A is assigned 16 bits (216 = 65536). Therefore, Least Significant Bit (LSB) is 9.75 V. By LSB indication, above-mentioned INL is 0.49 mV/(2  0.00975 mV) = 25 LSBs. *4 Differential non-linearity (DNL) is the difference between a measured code width and ideal 1 LSB in the ADC transfer curve. *5 Input offset voltage (VOS) is a measured value after Sinc3 digital filter when the input voltage is 0 V (VIN+ = VIN- = 0 V). *6 Absolute Internal Reference Voltage Tolerance (GE) is the gap rate between the ideal conversion line slope (Slope = 1) and a best-fit line slope that provided by the least-squares method from a real conversion level output for the differential input voltage (VIN+  VIN-: VIN+ = 200 mV to 200 mV, VIN- = 0 V). *7 Input DC Common-Mode Rejection Ratio (CMRRIN) is the ratio of the differential signal (VIN+ = 200 mV to 200 mV, VIN = 0 V) to the common-mode signal (VIN+ = VIN = 200 mV to 200 mV: Both input pins are connected). CMRRIN is defined as follows, CMRRIN (dB) = 20 log (Vdo/Vco) Vdo : Output voltage when the differential signal voltage input Vco : Output voltage when the common-mode signal voltage input R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 6 of 19 RV1S9353A Chapter Title ELECTRICAL CHARACTERISTICS (Tested with Sinc3 filter, 256 decimation ratio.) (TYP.: TA = 25C, VIN = VIN = 0 V, VDD1 = VDD2 = 5 V, MIN., MAX.: refer to RECOMMENDED OPERATING CONDITIONS, unless otherwise specified) Parameter Signal to Noise Ratio *8 Symbol SNR Signal to Noise and Distortion Ratio *9 SNDR Effective Number of Bit *10 ENOB *8 Conditions VIN = 35 Hz, 400 mVpk-pk (141 mVr.m.s.) sine wave MIN. TYP. MAX. Unit 80 85 dB 69 79 dB 13.8 bits Signal to Noise Ratio (SNR) is the ratio of the AC signal power to the noise power that excludes harmonic signals and DC. SNR is defined as follows, SNR (dB) = 10 log(PS/PN) PS: Signal power (fundamental) PN: Noise power (excluding harmonic signals and DC) *9 Signal to Noise and Distortion ratio (SNDR) is the ratio of the AC signal power (fundamental) to the noise power plus distortion power. SNDR is defined as follows, SNDR (dB) = 10 log(PS/(PN  PH2  PH3  ...  PH5)) PS: Signal power (fundamental) PN: Noise power (excluding harmonic signals and DC) PH2, PH3 ... PH5: Second through fifth harmonics power *10 Effective Number of Bit (ENOB) is the effective resolution of ADC that is considered the noise. ENOB is defined as follows, ENOB (bits) = (SNR1.76)/6.02 R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 7 of 19 RV1S9353A Chapter Title TEST CIRCUIT (VOL) (VOH) R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 8 of 19 RV1S9353A Chapter Title + - Vos, INL, DNL, GE, SNR, SNDR, ENOB Test Circuit R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 9 of 19 RV1S9353A Chapter Title TYPICAL CHARACTERISTICS (TA = 25C, VIN = VIN = 0 V, VDD1 = VDD2 = 5 V, tested with Sinc3 filter, 256 decimation ratio, unless otherwise specified) Remark The graphs indicate nominal characteristics. R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 10 of 19 RV1S9353A Chapter Title Remark The graphs indicate nominal characteristics. R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 11 of 19 RV1S9353A Chapter Title Remark The graphs indicate nominal characteristics. R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 12 of 19 RV1S9353A Chapter Title TAPING SPECIFICATIONS (UNIT: mm) Tape Direction Direction of feed 11.5±0.1 RV1S9353A-E3 (UNIT: mm) 4.5 MAX. 12.0±0.1 4.0±0.1 1.5 +0.1 –0 24.0 +0.3 –0.1 2.0±0.1 1.75±0.1 Outline and Dimensions (Tape) 2.0 +0.1 –0 8.0±0.1 0.35 4.05±0.1 6.35±0.1 Outline and Dimensions (Reel) 2.0±0.5 (UNIT: mm) 21.0±0.8 100±1.0 R 1.0 330±2.0 2.0±0.5 13.0±0.2 25.5±1.0 29.5±1.0 Packing: 2 000 pcs/reel R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 13 of 19 RV1S9353A Chapter Title RECOMMENDED MOUNT PAD DIMENSIONS (UNIT: mm) Remark All dimensions in this figure must be evaluated before use. R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 14 of 19 RV1S9353A Chapter Title NOTES ON HANDLING 1. Recommended soldering conditions (1) Infrared reflow soldering • Peak reflow temperature 260C or below (package surface temperature) • Time of peak reflow temperature 10 seconds or less • Time of temperature higher than 220C 60 seconds or less • Time to preheat temperature from 120 to 180C 12030 s • Number of reflows Three • Flux Rosin flux containing small amount of chlorine (The flux with a maximum chlorine content of 0.2 Wt% is recommended.) Recommended Temperature Profile of Infrared Reflow Package Surface Temperature T (°C) (heating) to 10 s 260°C MAX. 220°C to 60 s 180°C 120°C 120±30 s (preheating) Time (s) (2) Wave soldering • Temperature • Time • Preheating conditions • Number of times • Flux 260C or below (molten solder temperature) 10 seconds or less 120C or below (package surface temperature) One (Allowed to be dipped in solder including plastic mold portion.) Rosin flux containing small amount of chlorine (The flux with a maximum chlorine content of 0.2 Wt% is recommended.) (3) Soldering by Soldering Iron • Peak Temperature (lead part temperature) 350C or below • Time (each pins) 3 seconds or less • Flux Rosin flux containing small amount of chlorine (The flux with a maximum chlorine content of 0.2 Wt% is recommended.) (a) Soldering of leads should be made at the point 1.5 to 2.0 mm from the root of the lead (b) Please be sure that the temperature of the package would not be heated over 100C (4) Cautions • Flux Cleaning Avoid cleaning with Freon based or halogen-based (chlorinated etc.) solvents. • Do not use fixing agents or coatings containing halogen-based substances. R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 15 of 19 RV1S9353A Chapter Title 2. Cautions regarding noise Be aware that when voltage is applied suddenly between the photocoupler’s input and output at startup, the output transistor may enter the on state, even if the voltage is within the absolute maximum ratings. USAGE CAUTIONS 1. This product is weak for static electricity by designed with high-speed integrated circuit so protect against static electricity when handling. 2. Board designing (1) Below figure shows a typical application circuit where the RV1S9353A is used. A digital filter (Sinc3 filter) reduces high frequency quantization noise from the RV1S9353A and convers from one-bit data stream to 3-wire serial data. Fig. RV1S9353A Typical application circuit (2) By-pass capacitor of more than 0.1 F is used between VDD and GND near device. Also, ensure that the distance between the leads of the photocoupler and capacitor is no more than 10 mm. (3) Keep the pattern connected the input (VIN+, VIN–) and the output (MCLK, MDAT), respectively, as short as possible. MCLK and MDAT are digital signal, but when the lines between the photocoupler and a digital filter are long, the digital filter might not read the data. When using long lines, use a line driver between the photocoupler and the digital filter, and keep the pattern between the output (MCLK, MDAT) and the line driver as short as possible. (4) Do not connect any routing to the portion of the frame exposed between the pins on the package of the photocoupler. If connected, it will affect the photocoupler's internal voltage and the photocoupler will not operate normally. (5) Because the maximum frequency of the signal input to the photocoupler must be lower than the allowable frequency band, be sure to connect an anti-aliasing filter (an RC filter with R = 39 Ω and C = 0.01 F, for example). (6) When VDD1 is lower than 4.5 V that is the outside of the recommended operating condition, the output (MCLK, MDAT) of this product is unstable, and this might produce undesirable operation. Be sure to check the operation of an IC that is connected to this product during Power-up and Powerdown process. And we recommend to use a disable function (shutdown function) of the connected IC or a reset IC to avoid this undesirable operation. 3. Avoid storage at a high temperature and high humidity. R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 16 of 19 RV1S9353A Chapter Title SPECIFICATION OF VDE MARKS LICENSE DOCUMENT Parameter Symbol Climatic test class (IEC 60068-1/DIN EN 60068-1) Spec. Unit 40/110/21 Dielectric strength maximum operating isolation voltage Test voltage (partial discharge test, procedure a for type test and random test) Upr = 1.6  UIORM, Pd  5 pC Test voltage (partial discharge test, procedure b for all devices) Upr = 1.875  UIORM, Pd  5 pC UIORM Upr 1 500 2 400 Vpeak Vpeak Upr 2 813 Vpeak Highest permissible overvoltage Degree of pollution(IEC 60664-1/DIN EN 60664-1 (VDE 0110-1)) UTR 8 000 2 Vpeak Comparative tracking index (IEC 60112/DIN EN 60112 (VDE 0303 Part 11)) Material group(IEC 60664-1/DIN EN 60664-1 (VDE 0110-1)) CTI 175 III a Storage temperature range Operating temperature range Tstg TA –55 to +150 –40 to +110 °C °C Ris MIN. Ris MIN. 1012 1011   Tsi Isi Psi 175 400 700 °C mA mW Ris MIN. 109  Isolation resistance, minimum value VIO = 500 V dc at TA = 25°C VIO = 500 V dc at TA MAX. at least 100°C Safety maximum ratings (maximum permissible in case of fault, see thermal derating curve) Package temperature Current (input current IF, Psi = 0) Power (output or total power dissipation) Isolation resistance VIO = 500 V dc at TA = Tsi Total Power Dissipation Psi (mW) Input Current Isi (mA) Dependence of maximum safety ratings with package temperature 1000 900 800 700 600 Psi: Total Power Dissipation 500 400 300 Isi: Input Current 200 100 0 0 25 50 75 100 125 150 175 200 Package temp Tsi (°C) R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 17 of 19 RV1S9353A Chapter Title Method a Destructive Test, Type and Sample Test UIOTM=8000V Upr=2400V UIORM=1500V Method b Non-destructive Test, 100% Production Test Upr=2813V UIORM=1500V tm R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 18 of 19 RV1S9353A Caution Chapter Title GaAs Products This product uses gallium arsenide (GaAs). GaAs vapor and powder are hazardous to human health if inhaled or ingested, so please observe the following points. • Follow related laws and ordinances when disposing of the product. If there are no applicable laws and/or ordinances, dispose of the product as recommended below. 1. Commission a disposal company able to (with a license to) collect, transport and dispose of materials that contain arsenic and other such industrial waste materials. 2. Exclude the product from general industrial waste and household garbage, and ensure that the product is controlled (as industrial waste subject to special control) up until final disposal. • Do not burn, destroy, cut, crush, or chemically dissolve the product. • Do not lick the product or in any way allow it to enter the mouth. All trademarks and registered trademarks are the property of their respective owners. R08DS0174EJ0100 Rev.1.00 Mar 23, 2020 Page 19 of 19 Notice 1. Descriptions of circuits, software and other related information in this document are provided only to illustrate the operation of semiconductor products and application examples. You are fully responsible for the incorporation or any other use of the circuits, software, and information in the design of your product or system. Renesas Electronics disclaims any and all liability for any losses and damages incurred by you or third parties arising from the use of these circuits, software, or information. 2. Renesas Electronics hereby expressly disclaims any warranties against and liability for infringement or any other claims involving patents, copyrights, or other intellectual property rights of third parties, by or arising from the use of Renesas Electronics products or technical information described in this document, including but not limited to, the product data, drawings, charts, programs, algorithms, and application examples. 3. No license, express, implied or otherwise, is granted hereby under any patents, copyrights or other intellectual property rights of Renesas Electronics or others. 4. You shall not alter, modify, copy, or reverse engineer any Renesas Electronics product, whether in whole or in part. Renesas Electronics disclaims any and all liability for any losses or damages incurred by 5. Renesas Electronics products are classified according to the following two quality grades: “Standard” and “High Quality”. The intended applications for each Renesas Electronics product depends on the you or third parties arising from such alteration, modification, copying or reverse engineering. product’s quality grade, as indicated below. "Standard": Computers; office equipment; communications equipment; test and measurement equipment; audio and visual equipment; home electronic appliances; machine tools; personal electronic equipment; industrial robots; etc. "High Quality": Transportation equipment (automobiles, trains, ships, etc.); traffic control (traffic lights); large-scale communication equipment; key financial terminal systems; safety control equipment; etc. Unless expressly designated as a high reliability product or a product for harsh environments in a Renesas Electronics data sheet or other Renesas Electronics document, Renesas Electronics products are not intended or authorized for use in products or systems that may pose a direct threat to human life or bodily injury (artificial life support devices or systems; surgical implantations; etc.), or may cause serious property damage (space system; undersea repeaters; nuclear power control systems; aircraft control systems; key plant systems; military equipment; etc.). Renesas Electronics disclaims any and all liability for any damages or losses incurred by you or any third parties arising from the use of any Renesas Electronics product that is inconsistent with any Renesas Electronics data sheet, user’s manual or other Renesas Electronics document. 6. When using Renesas Electronics products, refer to the latest product information (data sheets, user’s manuals, application notes, “General Notes for Handling and Using Semiconductor Devices” in the reliability handbook, etc.), and ensure that usage conditions are within the ranges specified by Renesas Electronics with respect to maximum ratings, operating power supply voltage range, heat dissipation characteristics, installation, etc. Renesas Electronics disclaims any and all liability for any malfunctions, failure or accident arising out of the use of Renesas Electronics products outside of such specified ranges. 7. Although Renesas Electronics endeavors to improve the quality and reliability of Renesas Electronics products, semiconductor products have specific characteristics, such as the occurrence of failure at a certain rate and malfunctions under certain use conditions. Unless designated as a high reliability product or a product for harsh environments in a Renesas Electronics data sheet or other Renesas Electronics document, Renesas Electronics products are not subject to radiation resistance design. You are responsible for implementing safety measures to guard against the possibility of bodily injury, injury or damage caused by fire, and/or danger to the public in the event of a failure or malfunction of Renesas Electronics products, such as safety design for hardware and software, including but not limited to redundancy, fire control and malfunction prevention, appropriate treatment for aging degradation or any other appropriate measures. Because the evaluation of microcomputer software alone is very difficult and impractical, you are responsible for evaluating the safety of the final products or systems manufactured by you. 8. Please contact a Renesas Electronics sales office for details as to environmental matters such as the environmental compatibility of each Renesas Electronics product. You are responsible for carefully and sufficiently investigating applicable laws and regulations that regulate the inclusion or use of controlled substances, including without limitation, the EU RoHS Directive, and using Renesas Electronics products in compliance with all these applicable laws and regulations. Renesas Electronics disclaims any and all liability for damages or losses occurring as a result of your noncompliance with applicable laws and regulations. 9. Renesas Electronics products and technologies shall not be used for or incorporated into any products or systems whose manufacture, use, or sale is prohibited under any applicable domestic or foreign laws or regulations. You shall comply with any applicable export control laws and regulations promulgated and administered by the governments of any countries asserting jurisdiction over the parties or transactions. 10. It is the responsibility of the buyer or distributor of Renesas Electronics products, or any other party who distributes, disposes of, or otherwise sells or transfers the product to a third party, to notify such third party in advance of the contents and conditions set forth in this document. 11. This document shall not be reprinted, reproduced or duplicated in any form, in whole or in part, without prior written consent of Renesas Electronics. 12. Please contact a Renesas Electronics sales office if you have any questions regarding the information contained in this document or Renesas Electronics products. (Note 1) “Renesas Electronics” as used in this document means Renesas Electronics Corporation and also includes its directly or indirectly controlled subsidiaries. (Note 2) “Renesas Electronics product(s)” means any product developed or manufactured by or for Renesas Electronics. (Rev.4.0-1 November 2017) http://www.renesas.com SALES OFFICES Refer to "http://www.renesas.com/" for the latest and detailed information. Renesas Electronics Corporation TOYOSU FORESIA, 3-2-24 Toyosu, Koto-ku, Tokyo 135-0061, Japan Renesas Electronics America Inc. 1001 Murphy Ranch Road, Milpitas, CA 95035, U.S.A. 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RV1S9353ACCSP-120V#SC0
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