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  • 型号: ADUM2201ARWZ-RL
  • 制造商: Analog
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ADUM2201ARWZ-RL产品简介:

ICGOO电子元器件商城为您提供ADUM2201ARWZ-RL由Analog设计生产,在icgoo商城现货销售,并且可以通过原厂、代理商等渠道进行代购。 ADUM2201ARWZ-RL价格参考。AnalogADUM2201ARWZ-RL封装/规格:数字隔离器, 通用 数字隔离器 5000Vrms 2 通道 1Mbps 25kV/µs CMTI 16-SOIC(0.295",7.50mm 宽)。您可以下载ADUM2201ARWZ-RL参考资料、Datasheet数据手册功能说明书,资料中有ADUM2201ARWZ-RL 详细功能的应用电路图电压和使用方法及教程。

产品参数 图文手册 常见问题
参数 数值
产品目录

隔离器

ChannelType

单向

描述

IC DGTL ISO 2CH LOGIC 16SOIC数字隔离器 Dual-CH Digital 5kV

产品分类

数字隔离器

IsolatedPower

品牌

Analog Devices

产品手册

点击此处下载产品Datasheet

产品图片

rohs

符合RoHS无铅 / 符合限制有害物质指令(RoHS)规范要求

产品系列

接口 IC,数字隔离器,Analog Devices ADUM2201ARWZ-RLiCoupler®

数据手册

点击此处下载产品Datasheet

产品型号

ADUM2201ARWZ-RL

PulseWidthDistortion(Max)

40ns

上升/下降时间(典型值)

10ns, 10ns

产品种类

数字隔离器

传播延迟tpLH/tpHL(最大值)

150ns, 150ns

传播延迟时间

50 ns

供应商器件封装

16-SOIC W

共模瞬态抗扰度(最小值)

25kV/µs

其它名称

ADUM2201ARWZ-RLCT

其它图纸

包装

剪切带 (CT)

商标

Analog Devices

安装风格

SMD/SMT

封装

Reel

封装/外壳

16-SOIC(0.295",7.50mm 宽)

封装/箱体

SOIC-16

工作温度

-40°C ~ 105°C

工厂包装数量

1000

技术

磁耦合

数据速率

1Mbps

最大工作温度

+ 125 C

最大数据速率

10 Mb/s

最小工作温度

- 40 C

标准包装

1

电压-电源

3 V ~ 5.5 V

电压-隔离

5000Vrms

电源电压-最大

5.5 V

电源电压-最小

3 V

电源电流

0.8 mA

类型

General Purpose

系列

ADUM2201

绝缘电压

5 kVrms

脉宽失真(最大)

40ns

视频文件

http://www.digikey.cn/classic/video.aspx?PlayerID=1364138032001&width=640&height=505&videoID=2219593469001http://www.digikey.cn/classic/video.aspx?PlayerID=1364138032001&width=640&height=505&videoID=2219593470001http://www.digikey.cn/classic/video.aspx?PlayerID=1364138032001&width=640&height=505&videoID=2219614223001

输入-输入侧1/输入侧2

1/1

通道数

2

通道数量

2 Channel

通道类型

单向

隔离式电源

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PDF Datasheet 数据手册内容提取

Dual-Channel Digital Isolators, 5 kV Data Sheet ADuM2200/ADuM2201 FEATURES FUNCTIONAL BLOCK DIAGRAMS High isolation voltage: 5000 V rms GND1 1 PIN 1 ADuM2200 16 GND2 Enhanced system-level ESD performance per IEC 61000-4-x INDICATOR NC 2 15 NC Low power operation VDD1 3 14 VDD2 5 V operation VIA 4 ENCODE DECODE 13 VOA 1.6 mA per channel maximum at 0 Mbps to 1 Mbps VIB 5 ENCODE DECODE 12 VOB 3.7 mA per channel maximum at 10 Mbps NC 6 11 NC 3.3 V operation GND1 7 10 NC 12..44 mmAA ppeerr cchhaannnneell mmaaxxiimmuumm aatt 01 0M Mbbpps sto 1 Mbps NC 8NC = NO CONNECT 9 GND207235-001 3.3 V/5 V level translation Figure 1. ADuM2200 High temperature operation: 105°C and 125°C options High data rate: dc to 10 Mbps (NRZ) GND1 1 PIN 1 ADuM2201 16 GND2 INDICATOR Precise timing characteristics NC 2 15 NC 3 ns maximum pulse width distortion VDD1 3 14 VDD2 3 ns maximum channel-to-channel matching VOA 4 DECODE ENCODE 13 VIA High common-mode transient immunity: >25 kV/μs VIB 5 ENCODE DECODE 12 VOB 16-lead SOIC wide body package version (RW-16) NC 6 11 NC 16-lead SOIC wide body enhanced creepage version (RI-16-2) GND1 7 10 NC SaUfeLt yre acnodg rneitgiuolna:t 5o0ry0 0a pVp rrmosv afolsr 1 minute per UL 1577 NC 8NC = NO CONNECT 9 GND207235-002 Figure 2. ADuM2201 CSA Component Acceptance Notice 5A (RI-16-2 package) IEC 60601-1: 250 V rms (reinforced) and stable performance characteristics. The need for external drivers IEC 60950-1: 400 V rms (reinforced) and other discrete components is eliminated with these iCoupler VDE certificate of conformity products. Furthermore, iCoupler devices consume one-tenth to DIN V VDE V 0884-10 (VDE V 0884-10):2006-12 one-sixth the power of optocouplers at comparable signal data rates. V = 848 V peak IORM The ADuM2200/ADuM2201 isolators provide two independent Qualified for automotive applications isolation channels in two channel configurations with data rates up APPLICATIONS to 10 Mbps (see the Ordering Guide). Both parts operate with the General-purpose, high voltage, multichannel isolation supply voltage on either side ranging from 3.0 V to 5.5 V, providing Medical equipment compatibility with lower voltage systems, as well as enabling Power supplies voltage translation functionality across the isolation barrier. The RS-232/RS-422/RS-485 transceiver isolation ADuM2200/ADuM2201 isolators have a patented refresh feature Hybrid electric vehicles, battery monitors, and motor drives that ensures dc correctness in the absence of input logic transitions and during power-up/power-down conditions. GENERAL DESCRIPTION Similar to the ADuM3200/ADuM3201 isolators, the ADuM2200/ The ADuM2200/ADuM22011 are 2-channel digital isolators based ADuM2201 isolators contain various circuit and layout enhance- on Analog Devices, Inc., iCoupler® technology. Combining high ments that provide increased capability relative to system-level speed CMOS and monolithic air core transformer technology, these IEC 61000-4-x testing (ESD, burst, and surge). The precise isolation components provide outstanding performance character- capability in these tests for either the ADuM3200/ADuM3201 istics that are superior to alternatives such as optocoupler devices. or ADuM2200/ADuM2201 products is strongly determined by By avoiding the use of LEDs and photodiodes, iCoupler devices the design and layout of the user’s board or module. For more remove the design difficulties commonly associated with optocouplers. information, see the AN-793 Application Note, ESD/Latch-Up Typical optocoupler concerns regarding uncertain current transfer Considerations with iCoupler Isolation Products. ratios, nonlinear transfer functions, and temperature and lifetime effects are eliminated with the simple iCoupler digital interfaces 1 Protected by U.S. Patents 5,952,849; 6,873,065; 6,903,578; and 7,075,329. Other patents pending. Rev. G Document Feedback Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Tel: 781.329.4700 ©2008–2015 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. Technical Support www.analog.com

ADuM2200/ADuM2201 Data Sheet TABLE OF CONTENTS Features .............................................................................................. 1 Recommended Operating Conditions .......................................8 Applications ....................................................................................... 1 Absolute Maximum Ratings ............................................................9 General Description ......................................................................... 1 ESD Caution...................................................................................9 Functional Block Diagrams ............................................................. 1 Pin Configurations and Function Descriptions ......................... 10 Revision History ............................................................................... 2 Typical Performance Characteristics ........................................... 12 Specifications ..................................................................................... 3 Applications Information .............................................................. 13 Electrical Characteristics—5 V Operation................................ 3 PCB Layout ................................................................................. 13 Electrical Characteristics—3.3 V Operation ............................ 4 Propagation Delay-Related Parameters ................................... 13 Electrical Characteristics—Mixed 5 V/3.3 V Operation ........ 5 DC Correctness and Magnetic Field Immunity ..................... 13 Electrical Characteristics—Mixed 3.3 V/5 V Operation ........ 6 Power Consumption .................................................................. 14 Package Characteristics ............................................................... 7 Insulation Lifetime ..................................................................... 15 Regulatory Information ............................................................... 7 Outline Dimensions ....................................................................... 16 Insulation and Safety-Related Specifications ............................ 7 Ordering Guide .......................................................................... 17 Insulation Characteristics (DIN V VDE V 0884-10 (VDE V Automotive Products ................................................................. 17 0884-10):2006-12) ........................................................................ 8 REVISION HISTORY 9/15—Rev. F to Rev. G Changes to Table 16 and Table 17 ................................................... 8 Changed 3 V Operation to 3.3 V Operation .............. Throughout Replaced Figure 3 .............................................................................. 8 Updated Page 1 Layout .................................................................... 1 Changes to Table 18 and Table 19 ................................................... 9 Changes to Features Section............................................................ 1 Changes to Figure 4 and Table 22................................................. 10 Changes to Table 2 and Table 3 ....................................................... 3 Changes to Figure 5 and Table 23................................................. 11 Changes to Table 5 and Table 6 ....................................................... 4 Changes to PCB Layout Section ................................................... 13 Changes to Table 8 and Table 9 ....................................................... 5 Updated Outline Dimensions ....................................................... 16 Changes to Table 11 and Table 12 .................................................. 6 Changes to Ordering Guide .......................................................... 17 Added Automotive Products Section .......................................... 17 7/15—Rev. E to Rev. F Changed ADuM320x to ADuM3200/ADuM3201 ... Throughout 3/12—Rev. B to Rev. C Changes to Table14 ........................................................................... 7 Created Hyperlink for Safety and Regulatory Approvals Entry in Features Section ............................................................................ 1 2/13—Rev. D to Rev. E Change to PCB Layout Section ..................................................... 16 Changes to Table 19 .......................................................................... 9 8/11—Rev. A to Rev. B 1/13—Rev. C to Rev. D Added 16-Lead SOIC_IC Package ................................... Universal Changes to Features Section and Applications Section ............... 1 Changes to Features Section ............................................................ 1 Changes to Electrical Characteristics—5 V Operation Section .... 3 Changes to Table 5 and Table 6..................................................... 10 Replaced Table 1; added Table 2 and Table 3 ................................ 3 Changes to Endnote 1, Table 8...................................................... 11 Changes to Electrical Characteristics—3 V Operation Section .... 4 Updated Outline Dimensions ....................................................... 19 Replaced Table 2; added Table 5 and Table 6 ................................ 4 Changes to Ordering Guide .......................................................... 19 Changed Electrical Characteristics—Mixed 5 V/3 V or 3 V/5 V Operation Section to Electrical Characteristics—Mixed 5 V/3 V 7/08—Rev. 0 to Rev. A Operation Section ............................................................................. 5 Changes to Features Section and General Description Section ........ 1 Replaced Table 3; added Table 8 and Table 9 ................................ 5 Changes to Table 5 .......................................................................... 10 Added Electrical Characteristics—Mixed 3 V/5 V Operation Section, Table 10, Table 11, and Table 12 ...................................... 6 1/08—Revision 0: Initial Version Changes to Table 13, Table 14, and Table 15 ................................. 7 Rev. G | Page 2 of 17

Data Sheet ADuM2200/ADuM2201 SPECIFICATIONS ELECTRICAL CHARACTERISTICS—5 V OPERATION All voltages are relative to their respective grounds. 4.5 V ≤ V ≤ 5.5 V, 4.5 V ≤ V ≤ 5.5 V. All minimum/maximum specifications apply DD1 DD2 over the entire recommended operation range, unless otherwise noted. All typical specifications are at T = 25°C, V = V = 5.0 V. A DD1 DD2 Table 1. A Grade B Grade Parameter Symbol Min Typ Max Min Typ Max Unit Test Conditions/Comments SWITCHING SPECIFICATIONS C = 15 pF, CMOS levels L Pulse Width PW 1000 100 ns Within PWD limit Data Rate 1 10 Mbps Within PWD limit Propagation Delay t , t 20 150 20 50 ns 50% input to 50% output PHL PLH Pulse Width Distortion PWD 40 3 ns |t − t | PLH PHL Change vs. Temperature 5 ps/°C Propagation Delay Skew t 100 15 ns Between any two units PSK Channel Matching Codirectional t 50 3 ns PSKCD Opposing Directional t 50 15 ns PSKOD Table 2. 1 Mbps—A Grade, B Grade 10 Mbps—B Grade Parameter Symbol Min Typ Max Min Typ Max Unit SUPPLY CURRENT (NO LOAD) ADuM2200 I 1.3 1.8 3.5 4.6 mA DD1 I 1.0 1.6 2.0 2.8 mA DD2 ADuM2201 I 1.1 1.6 3.1 4.2 mA DD1 I 1.3 1.9 3.1 4.0 mA DD2 Table 3. Parameter Symbol Min Typ Max Unit Test Conditions/Comments1 DC SPECIFICATIONS Logic High Input Threshold V 0.7 V V IH DDx Logic Low Input Threshold V 0.3 V V IL DDx Logic High Output Voltages V V − 0.1 5.0 V I = −20 µA, V = V OH DDx Ox Ix IxH V − 0.5 4.8 V I = −3.2 mA, V = V DDx Ox Ix IxH Logic Low Output Voltages V 0.0 0.1 V I = 20 µA, V = V OL Ox Ix IxL 0.2 0.4 V I = 3.2 mA, V = V Ox Ix IxL Input Current per Channel I −10 +0.01 +10 µA 0 V ≤ V ≤ V I Ix DDx Supply Current per Channel Quiescent Input Supply Current I 0.4 0.8 mA All inputs at logic low DDI (Q) Quiescent Output Supply Current I 0.5 0.6 mA All inputs at logic low DDO (Q) Dynamic Input Supply Current I 0.19 mA/Mbps DDI (D) Dynamic Output Supply Current I 0.05 mA/Mbps DDO (D) AC SPECIFICATIONS Output Rise/Fall Time t /t 10% to 90% R F A Grade 10 ns B Grade 2.5 ns Common-Mode Transient Immunity2 |CM| 25 35 kV/µs V = V , V = 1000 V, Ix DDx CM transient magnitude = 800 V Refresh Rate f 1.2 Mbps r 1 I is the Channel x output current, where x = A or B, V is the input side logic high, and V is the input side logic low. Ox IxH IxL 2 |CM| is the maximum common-mode voltage slew rate that can be sustained while maintaining V > 0.8 V . The common-mode voltage slew rates apply to both O DD rising and falling common-mode voltage edges. Rev. G | Page 3 of 17

ADuM2200/ADuM2201 Data Sheet ELECTRICAL CHARACTERISTICS—3.3 V OPERATION All voltages are relative to their respective grounds. 3.0 V ≤ V ≤ 3.6 V, 3.0 V ≤ V ≤ 3.6 V. All minimum/maximum specifications apply DD1 DD2 over the entire recommended operation range, unless otherwise noted. All typical specifications are at T = 25°C, V = V = 3.3 V. A DD1 DD2 Table 4. A Grade B Grade Parameter Symbol Min Typ Max Min Typ Max Unit Test Conditions/Comments SWITCHING SPECIFICATIONS C = 15 pF, CMOS levels L Pulse Width PW 1000 100 ns Within PWD limit Data Rate 1 10 Mbps Within PWD limit Propagation Delay t , t 20 150 20 60 ns 50% input to 50% output PHL PLH Pulse Width Distortion PWD |t − t | PLH PHL A Grade and B Grade 40 3 ns WA Grade and WB Grade 40 4 ns Change vs. Temperature 5 ps/°C Propagation Delay Skew t 100 22 ns Between any two units PSK Channel Matching Codirectional t 50 3 ns PSKCD Opposing Directional t 50 22 ns PSKOD Table 5. 1 Mbps—A Grade, B Grade 10 Mbps—B Grade Parameter Symbol Min Typ Max Min Typ Max Unit SUPPLY CURRENT (NO LOAD) ADuM2200 I 0.8 1.3 2.2 3.2 mA DD1 I 0.7 1.0 1.3 1.7 mA DD2 ADuM2201 I 0.7 1.3 1.9 2.5 mA DD1 I 0.8 1.6 1.9 2.5 mA DD2 Table 6. Parameter Symbol Min Typ Max Unit Test Conditions/Comments1 DC SPECIFICATIONS Logic High Input Threshold V 0.7 V V IH DDx Logic Low Input Threshold V 0.3 V V IL DDx Logic High Output Voltages V V − 0.1 3.0 V I = −20 µA, V = V OH DDx Ox Ix IxH V − 0.5 2.8 V I = −3.2 mA, V = V DDx Ox Ix IxH Logic Low Output Voltages V 0.0 0.1 V I = 20 µA, V = V OL Ox Ix IxL 0.2 0.4 V I = 3.2 mA, V = V Ox Ix IxL Input Current per Channel I −10 +0.01 +10 µA 0 V ≤ V ≤ V I Ix DDx Supply Current per Channel Quiescent Input Supply Current I 0.3 0.5 mA All inputs at logic low DDI (Q) Quiescent Output Supply Current I 0.3 0.5 mA All inputs at logic low DDO (Q) Dynamic Input Supply Current I 0.10 mA/Mbps DDI (D) Dynamic Output Supply Current I 0.03 mA/Mbps DDO (D) AC SPECIFICATIONS Output Rise/Fall Time t /t 10% to 90% R F A Grade 10 ns B Grade 3 ns Common-Mode Transient Immunity2 |CM| 25 35 kV/µs V = V , V = 1000 V, Ix DDx CM transient magnitude = 800 V Refresh Rate f 1.1 Mbps r 1 I is the Channel x output current, where x = A or B, V is the input side logic high, and V is the input side logic low. Ox IxH IxL 2 |CM| is the maximum common-mode voltage slew rate that can be sustained while maintaining V > 0.8 V . The common-mode voltage slew rates apply to both O DD rising and falling common-mode voltage edges. Rev. G | Page 4 of 17

Data Sheet ADuM2200/ADuM2201 ELECTRICAL CHARACTERISTICS—MIXED 5 V/3.3 V OPERATION All voltages are relative to their respective grounds. 4.5 V ≤ V ≤ 5.5 V, 3.0 V ≤ V ≤ 3.6 V. All minimum/maximum specifications apply DD1 DD2 over the entire recommended operation range, unless otherwise noted. All typical specifications are at T = 25°C, V = 3.3 V, V = 5.0 V. A DD1 DD2 Table 7. A Grade B Grade Test Conditions/ Parameter Symbol Min Typ Max Min Typ Max Unit Comments SWITCHING SPECIFICATIONS C = 15 pF, CMOS levels L Pulse Width PW 1000 100 ns Within PWD limit Data Rate 1 10 Mbps Within PWD limit Propagation Delay t , t 15 150 15 55 ns 50% input to 50% output PHL PLH Pulse Width Distortion PWD |t − t | PLH PHL A Grade and B Grade 40 3 ns WA Grade and WB Grade 40 4 ns Change vs. Temperature 5 ps/°C Propagation Delay Skew t 50 22 ns Between any two units PSK Channel Matching Codirectional t 50 3 ns PSKCD Opposing Directional t 50 22 ns PSKOD Table 8. 1 Mbps—A Grade, B Grade 10 Mbps—B Grade Parameter Symbol Min Typ Max Min Typ Max Unit SUPPLY CURRENT (NO LOAD) ADuM2200 I 1.3 1.8 3.5 4.6 mA DD1 I 0.7 1.0 1.3 1.7 mA DD2 ADuM2201 I 1.1 1.6 3.1 4.2 mA DD1 I 0.8 1.6 1.9 2.5 mA DD2 Table 9. Parameter Symbol Min Typ Max Unit Test Conditions/Comments1 DC SPECIFICATIONS Logic High Input Threshold V 0.7 V V IH DDx Logic Low Input Threshold V 0.3 V V IL DDx Logic High Output Voltages V V − 0.1 V V I = −20 µA, V = V OH DDx DDx Ox Ix IxH V − 0.5 V − 0.2 V I = −3.2 mA, V = V DDx DDx Ox Ix IxH Logic Low Output Voltages V 0.0 0.1 V I = 20 µA, V = V OL Ox Ix IxL 0.2 0.4 V I = 3.2 mA, V = V Ox Ix IxL Input Current per Channel I −10 +0.01 +10 µA 0 V ≤ V ≤ V I Ix DDx Supply Current per Channel Quiescent Input Supply Current I 0.4 0.8 mA All inputs at logic low DDI (Q) Quiescent Output Supply Current I 0.3 0.5 mA All inputs at logic low DDO (Q) Dynamic Input Supply Current I 0.19 mA/Mbps DDI (D) Dynamic Output Supply Current I 0.03 mA/Mbps DDO (D) AC SPECIFICATIONS Output Rise/Fall Time t /t 10% to 90% R F A Grade 10 ns B Grade 3 ns Common-Mode Transient Immunity2 |CM| 25 35 kV/µs V = V , V = 1000 V, Ix DDx CM transient magnitude = 800 V Refresh Rate f 1.2 Mbps r 1 I is the Channel x output current, where x = A or B, V is the input side logic high, and V is the input side logic low. Ox IxH IxL 2 |CM| is the maximum common-mode voltage slew rate that can be sustained while maintaining V > 0.8 V . The common-mode voltage slew rates apply to both O DD rising and falling common-mode voltage edges. Rev. G | Page 5 of 17

ADuM2200/ADuM2201 Data Sheet ELECTRICAL CHARACTERISTICS—MIXED 3.3 V/5 V OPERATION All voltages are relative to their respective grounds. 3.0 V ≤ V ≤ 3.6 V, 4.5 V ≤ V ≤ 5.5 V. All minimum/maximum specifications apply DD1 DD2 over the entire recommended operation range, unless otherwise noted. All typical specifications are at T = 25°C, V = 5.0 V, V = 3.3 V. A DD1 DD2 Table 10. A Grade B Grade Parameter Symbol Min Typ Max Min Typ Max Unit Test Conditions/Comments SWITCHING SPECIFICATIONS C = 15 pF, CMOS levels L Pulse Width PW 1000 100 ns Within PWD limit Data Rate 1 10 Mbps Within PWD limit Propagation Delay t , t 15 150 15 55 ns 50% input to 50% output PHL PLH Pulse Width Distortion PWD |t − t | PLH PHL A Grade and B Grade 40 3 ns WA Grade and WB Grade 40 4 ns Change vs. Temperature 5 ps/°C Propagation Delay Skew t 50 22 ns Between any two units PSK Channel Matching Codirectional t 50 3 ns PSKCD Opposing Directional t 50 22 ns PSKOD Table 11. 1 Mbps—A Grade, B Grade 10 Mbps—B Grade Parameter Symbol Min Typ Max Min Typ Max Unit SUPPLY CURRENT (NO LOAD) ADuM2200 I 0.8 1.3 2.2 3.2 mA DD1 I 1.0 1.6 2.0 2.8 mA DD2 ADuM2201 I 0.7 1.3 1.9 2.5 mA DD1 I 1.3 1.9 3.1 4.0 mA DD2 Table 12. Parameter Symbol Min Typ Max Unit Test Conditions/Comments1 DC SPECIFICATIONS Logic High Input Threshold V 0.7 V V IH DDx Logic Low Input Threshold V 0.3 V V IL DDx Logic High Output Voltages V V − 0.1 V V I = −20 µA, V = V OH DDx DDx Ox Ix IxH V − 0.5 V − 0.2 V I = −3.2 mA, V = V DDx DDx Ox Ix IxH Logic Low Output Voltages V 0.0 0.1 V I = 20 µA, V = V OL Ox Ix IxL 0.2 0.4 V I = 3.2 mA, V = V Ox Ix IxL Input Current per Channel I −10 +0.01 +10 µA 0 V ≤ V ≤ V I Ix DDx Supply Current per Channel Quiescent Input Supply Current I 0.3 0.5 mA All inputs at logic low DDI (Q) Quiescent Output Supply Current I 0.5 0.6 mA All inputs at logic low DDO (Q) Dynamic Input Supply Current I 0.10 mA/Mbps DDI (D) Dynamic Output Supply Current I 0.05 mA/Mbps DDO (D) AC SPECIFICATIONS Output Rise/Fall Time t /t 10% to 90% R F A Grade 10 ns B Grade 2.5 ns Common-Mode Transient Immunity2 |CM| 25 35 kV/µs V = V , V = 1000 V, Ix DDx CM transient magnitude = 800 V Refresh Rate f 1.1 Mbps r 1 I is the Channel x output current, where x = A or B, V is the input side logic high, and V is the input side logic low. Ox IxH IxL 2 |CM| is the maximum common-mode voltage slew rate that can be sustained while maintaining V > 0.8 V . The common-mode voltage slew rates apply to both O DD rising and falling common-mode voltage edges. Rev. G | Page 6 of 17

Data Sheet ADuM2200/ADuM2201 PACKAGE CHARACTERISTICS Table 13. Parameter Symbol Min Typ Max Unit Test Conditions/Comments Resistance (Input-to-Output)1 R 1012 Ω I-O Capacitance (Input-to-Output)1 C 2 pF f = 1 MHz I-O Input Capacitance2 C 4 pF I IC Junction-to-Ambient Thermal Resistance θ 45 °C/W JA 1 This device is considered a 2-terminal device: Pin 1 through Pin 8 are shorted together, and Pin 9 through Pin 16 are shorted together. 2 Input capacitance is from any input data pin to ground. REGULATORY INFORMATION The ADuM2200/ADuM2201 are approved by the organizations listed in Table 14. Refer to Table 19 and the Insulation Lifetime section for more information about the recommended maximum working voltages for specific cross-isolation waveforms and insulation levels. Table 14. UL CSA CQC VDE Recognized Under Approved under CSA Component Approved under CQC11-471543-2012 Certified according to UL 1577 Component Acceptance Notice 5A DIN V VDE V 0884-10 Recognition Program1 (VDE V 0884-10):2006-122 Single Protection, Basic insulation per CSA 60950-1-07 and Basic insulation per GB4943.1-2011, Reinforced insulation, 5000 V rms Isolation IEC 60950-1, 600 V rms (848 V peak) 600 V rms (848 V peak) maximum 848 V peak Voltage maximum working voltage working voltage, tropical climate, altitude ≤ 5000 m RW-16 package: reinforced insulation per RW-16 package: reinforced insulation CSA 60950-1-07 and IEC 60950-1, per GB4943.1-2011, 380 V rms 380 V rms (537 V peak) maximum (537 V peak) maximum working working voltage; reinforced insulation voltage, tropical climate, altitude ≤ per IEC 60601-1, 125 V rms (176 V peak) 5000 m maximum working voltage RI-16-2 package: reinforced insulation per RI-16 package: reinforced insulation CSA 60950-1-07 and IEC 60950-1, per 400 V rms (565 V peak) maximum 400 V rms (565 V peak) maximum working voltage, tropical climate, working voltage; reinforced insulation altitude ≤ 5000 m per IEC 60601-1, 250 V rms (353 V peak) maximum working voltage File E214100 File 205078 File: CQC14001105917 File 2471900-4880-0001 1 In accordance with UL 1577, each ADuM2200/ADuM2201 is proof tested by applying an insulation test voltage ≥ 6000 V rms for 1 sec (current leakage detection limit = 10 µA). 2 In accordance with DIN V VDE V 0884-10 (VDE V 0884-10):2006-12, each ADuM2200/ADuM2201 is proof tested by applying an insulation test voltage ≥1592 V peak for 1 sec (partial discharge detection limit = 5 pC). The asterisk (*) marking branded on the components designates DIN V VDE V 0884-10 (VDE V 0884-10):2006-12 approval. INSULATION AND SAFETY-RELATED SPECIFICATIONS Table 15. Parameter Symbol Value Unit Test Conditions/Comments Rated Dielectric Insulation Voltage 5000 V rms 1-minute duration Minimum External Air Gap (Clearance) L(I01) 8.0 min mm Distance measured from input terminals to output terminals, shortest distance through air along the PCB mounting plane, as an aid to PC board layout Minimum External Tracking (Creepage) L(I02) Measured from input terminals to output terminals, shortest distance path along body RW-16 Package 7.7 min mm RI-16-2 Package 8.3 min mm Minimum Internal Distance (Internal Clearance) 0.017 min mm Insulation distance through insulation Tracking Resistance (Comparative Tracking Index) CTI >400 V DIN IEC 112/VDE 0303, Part 1 Isolation Group II Material Group (DIN VDE 0110, 1/89, Table 1) Rev. G | Page 7 of 17

ADuM2200/ADuM2201 Data Sheet INSULATION CHARACTERISTICS (DIN V VDE V 0884-10 (VDE V 0884-10):2006-12) These isolators are suitable for reinforced electrical isolation only within the safety limit data. Maintenance of the safety data is ensured by means of protective circuits. The asterisk (*) marking branded on the components designates DIN V VDE V 0884-10 (VDE V 0884-10):2006-12 approval for 848 V peak working voltage. Table 16. Description Test Conditions/Comments Symbol Characteristic Unit Installation Classification per DIN VDE 0110 For Rated Mains Voltage ≤ 150 V rms I to IV For Rated Mains Voltage ≤ 300 V rms I to IV For Rated Mains Voltage ≤ 400 V rms I to IV Climatic Classification 40/105/21 Pollution Degree per DIN VDE 0110, Table 1 2 Maximum Working Insulation Voltage V 848 V peak IORM Input-to-Output Test Voltage, Method B1 V × 1.875 = V , 100% production test, V 1592 V peak IORM pd(m) pd(m) t = t = 1 sec, partial discharge < 5 pC ini m Input-to-Output Test Voltage, Method A After Environmental Tests Subgroup 1 V × 1.5 = V , t = 60 sec, t = 10 sec, partial V 1273 V peak IORM pd(m) ini m pd(m) discharge < 5 pC After Input and/or Safety Tests Subgroup 2 V × 1.2 = V , t = 60 sec, t = 10 sec, partial V 1018 V peak IORM pd(m) ini m pd(m) and Subgroup 3 discharge < 5 pC Highest Allowable Overvoltage Transient overvoltage, t = 10 sec V 6000 V peak TR TR Surge Isolation Voltage V peak = 10 kV, 1.2 μs rise time, 50 μs, 50% fall time V 6000 V peak IOSM Safety Limiting Values Maximum value allowed in the event of a failure; see Figure 3 Maximum Junction Temperature T 150 °C S Total Power Dissipation at 25°C P 2.78 W S Insulation Resistance at T V = 500 V R >109 Ω S IO S 3.0 RECOMMENDED OPERATING CONDITIONS Table 17. 2.5 W) Parameter Symbol Min Max Unit ER ( 2.0 Operating Temperature TA W O A Grade and B Grade −40 +105 °C P NG 1.5 WA Grade and WB Grade −40 +125 °C MITI Supply Voltages1 VDD1, VDD2 3.0 5.5 V E LI 1.0 Input Signal Rise and Fall Times 1.0 ms F SA 1 All voltages are relative to their respective grounds. 0.5 0 07235-003 0 50 100 150 200 AMBIENT TEMPERATURE (°C) Figure 3. Thermal Derating Curve, Dependence of Safety Limiting Values with Case Temperature per DIN V VDE V 0884-10 Rev. G | Page 8 of 17

Data Sheet ADuM2200/ADuM2201 ABSOLUTE MAXIMUM RATINGS Table 18. Stresses at or above those listed under Absolute Maximum Parameter Rating Ratings may cause permanent damage to the product. This is a Storage Temperature (T ) −65°C to +150°C stress rating only; functional operation of the product at these ST Ambient Operating Temperature (T ) −40°C to +125°C or any other conditions above those indicated in the operational A Supply Voltage (V , V )1 −0.5 V to +7.0 V section of this specification is not implied. Operation beyond DD1 DD2 Input Voltage (V , V )1, 2 −0.5 V to V + 0.5 V the maximum operating conditions for extended periods may IA IB DDI Output Voltage (V , V )1, 2 −0.5 V to V + 0.5 V affect product reliability. OA OB DDO Average Output Current per Pin3 ESD CAUTION Side 1 (I ) −18 mA to +18 mA O1 Side 2 (I ) −22 mA to +22 mA O2 Common-Mode Transients4 −100 kV/µs to +100 kV/µs 1 All voltages are relative to their respective grounds. 2 V and V refer to the supply voltages on the input and output sides DDI DDO of a given channel, respectively. See the PCB Layout section. 3 See Figure 3 for maximum rated current values for various temperatures. 4 Refers to common-mode transients across the insulation barrier. Common- mode transients exceeding the absolute maximum rating can cause latch-up or permanent damage. Table 19. Maximum Continuous Working Voltage1 Parameter Max Unit Constraint AC Voltage, Bipolar Waveform 565 V peak 50-year minimum lifetime AC Voltage, Unipolar Waveform Reinforced Insulation 1131 V peak 50-year minimum lifetime DC Voltage Reinforced Insulation 1131 V peak 50-year minimum lifetime 1 Refers to continuous voltage magnitude imposed across the isolation barrier. See the Insulation Lifetime section for more information. Table 20. ADuM2200 Truth Table (Positive Logic) V Input1 V Input1 V State V State V Output1 V Output1 Notes IA IB DD1 DD2 OA OB H H Powered Powered H H L L Powered Powered L L H L Powered Powered H L L H Powered Powered L H X X Unpowered Powered H H Outputs return to the input state within 1 µs of V power restoration. DDI X X Powered Unpowered Indeterminate Indeterminate Outputs return to the input state within 1 µs of V power restoration. DDO 1 H is logic high, L is logic low, and X is don’t care. Table 21. ADuM2201 Truth Table (Positive Logic) V Input1 V Input1 V State V State V Output1 V Output1 Notes IA IB DD1 DD2 OA OB H H Powered Powered H H L L Powered Powered L L H L Powered Powered H L L H Powered Powered L H X X Unpowered Powered Indeterminate H Outputs return to the input state within 1 µs of V power restoration. DDI X X Powered Unpowered H Indeterminate Outputs return to the input state within 1 µs of V power restoration. DDO 1 H is logic high, L is logic low, and X is don’t care. Rev. G | Page 9 of 17

ADuM2200/ADuM2201 Data Sheet PIN CONFIGURATIONS AND FUNCTION DESCRIPTIONS GND1 1 16 GND2 NC 2 15 NC VDD1 3 ADuM2200 14 VDD2 VIA 4 TOP VIEW 13 VOA VIB 5 (Not to Scale) 12 VOB NC 6 11 NC GND1 7 10 NC NCN8C = NO CONNECT9 GND2 07235-004 NOTES: 1. PIN 1AND PIN 7ARE INTERNALLY CONNECTEDTO EACH OTHER,AND IT IS RECOMMENDED THAT BOTH PINS BE CONNECTEDTO A COMMON GROUND. 2. PIN 9AND PIN 16ARE INTERNALLY CONNECTEDTO EACH OTHER,AND IT IS RECOMMENDED THAT BOTH PINS BE CONNECTEDTO A COMMON GROUND. Figure 4. ADuM2200 Pin Configuration Table 22. ADuM2200 Pin Function Descriptions Pin No. Mnemonic Description 1, 7 GND Ground 1. Ground reference for Isolator Side 1. Pin 1 and Pin 7 are internally connected to each other, and it is 1 recommended that both pins be connected to a common ground. 2 NC No Internal Connection. 3 V Supply Voltage for Isolator Side 1, 3.0 V to 5.5 V. DD1 4 V Logic Input A. IA 5 V Logic Input B. IB 6 NC No Internal Connection. 8 NC No Internal Connection. 9, 16 GND Ground 2. Ground reference for Isolator Side 2. Pin 9 and Pin 16 are internally connected to each other, and it is 2 recommended that both pins be connected to a common ground. 10 NC No Internal Connection. 11 NC No Internal Connection. 12 V Logic Output B. OB 13 V Logic Output A. OA 14 V Supply Voltage for Isolator Side 2, 3.0 V to 5.5 V. DD2 15 NC No Internal Connection. Rev. G | Page 10 of 17

Data Sheet ADuM2200/ADuM2201 GND1 1 16 GND2 NC 2 15 NC VDD1 3 ADuM2201 14 VDD2 VOA 4 TOP VIEW 13 VIA VIB 5 (Not to Scale) 12 VOB NC 6 11 NC GND1 7 10 NC NCN8C = NO CONNECT9 GND2 07235-005 NOTES: 1. PIN 1AND PIN 7ARE INTERNALLY CONNECTEDTO EACH OTHER,AND IT IS RECOMMENDED THAT BOTH PINS BE CONNECTEDTO A COMMON GROUND. 2. PIN 9AND PIN 16ARE INTERNALLY CONNECTEDTO EACH OTHER,AND IT IS RECOMMENDED THAT BOTH PINS BE CONNECTEDTO A COMMON GROUND. Figure 5. ADuM2201 Pin Configuration Table 23. ADuM2201 Pin Function Descriptions Pin No. Mnemonic Description 1, 7 GND Ground 1. Ground reference for Isolator Side 1. Pin 1 and Pin 7 are internally connected to each other, and it is 1 recommended that both pins be connected to a common ground. 2 NC No Internal Connection. 3 V Supply Voltage for Isolator Side 1, 3.0 V to 5.5 V. DD1 4 V Logic Output A. OA 5 V Logic Input B. IB 6 NC No Internal Connection. 8 NC No Internal Connection. 9, 16 GND Ground 2. Ground reference for Isolator Side 2. Pin 9 and Pin 16 are internally connected to each other, and it is 2 recommended that both pins be connected to a common ground. 10 NC No Internal Connection. 11 NC No Internal Connection. 12 V Logic Output B. OB 13 V Logic Input A. IA 14 V Supply Voltage for Isolator Side 2, 3.0 V to 5.5 V. DD2 15 NC No Internal Connection. Rev. G | Page 11 of 17

ADuM2200/ADuM2201 Data Sheet TYPICAL PERFORMANCE CHARACTERISTICS 10 20 8 15 A) m NEL ( 6 mA) HAN NT ( 10 RENT/C 4 CURRE 5V R 5V CU 5 2 3V 3V 00 10DATA RATE (Mbps)20 30 07235-006 00 10DATA RATE (Mbps)20 30 07235-009 Figure 6. Typical Input Supply Current per Channel vs. Data Rate Figure 9. Typical ADuM2200 VDD1 Supply Current vs. Data Rate for 5 V and 3.3 V Operation (No Output Load) for 5 V and 3.3 V Operation 4 4 3 3 A) m NEL ( mA) 5V HAN 2 NT ( 2 RRENT/C 5V CURRE 3V CU 1 1 3V 00 10DATA RATE (Mbps)20 30 07235-007 00 10DATA RATE (Mbps)20 30 07235-010 Figure 7. Typical Output Supply Current per Channel vs. Data Rate Figure 10. Typical ADuM2200 VDD2 Supply Current vs. Data Rate for 5 V and 3.3 V Operation (No Output Load) for 5 V and 3.3 V Operation 4 10 8 3 A) m NEL ( mA) 6 T/CHAN 2 5V RRENT ( 4 EN CU 5V R R U 1 C 2 3V 3V 00 10DATA RATE (Mbps)20 30 07235-008 00 10DATA RATE (Mbps)20 30 07235-011 Figure 8. Typical Output Supply Current per Channel vs. Data Rate Figure 11. Typical ADuM2201 VDD1 or VDD2 Supply Current vs. Data Rate for 5 V and 3.3 V Operation (15 pF Output Load) for 5 V and 3.3 V Operation Rev. G | Page 12 of 17

Data Sheet ADuM2200/ADuM2201 APPLICATIONS INFORMATION PCB LAYOUT DC CORRECTNESS AND MAGNETIC FIELD IMMUNITY The ADuM2200/ADuM2201 digital isolators require no external interface circuitry for the logic interfaces. Power supply bypassing Positive and negative logic transitions at the isolator input cause is strongly recommended at the input and output supply pins (see narrow (~1 ns) pulses to be sent to the decoder via the transformer. Figure 12). Bypass capacitors are most conveniently connected The decoder is bistable and is, therefore, either set or reset by between Pin 1 and Pin 3 for VDD1 and between Pin 14 and Pin 16 the pulses, indicating input logic transitions. In the absence of for VDD2. The capacitor value should be between 0.01 μF and 0.1 μF. logic transitions at the input for more than ~1 μs, a periodic set The total lead length between both ends of the capacitor and the of refresh pulses indicative of the correct input state is sent to input power supply pin should not exceed 2 mm. Consider ensure dc correctness at the output. If the decoder receives no bypassing between Pin 3 and Pin 7 and between Pin 9 and Pin 14 internal pulses for more than approximately 5 μs, the input side unless the ground pair on each package side is connected close is assumed to be unpowered or nonfunctional, and the isolator to the package. output is forced to a default state by the watchdog timer circuit (see Table 20 and Table 21). GND1 GND2 NC NC The limitation on the magnetic field immunity of the ADuM2200/ VDD1 VDD2 ADuM2201 is set by the condition in which induced voltage in the VIA/VOA VOA/VIA transformer receiving coil is large enough to either falsely set or VIB VOB reset the decoder. The following analysis defines the conditions NC NC under which this can occur. The 3.3 V operating condition of GNNDC1 NGCND207235-012 tthhee mADosutM su2s2c0e0p/tAibDleu mMo2d2e0 o1f i os pexeraamtiionne.d because it represents Figure 12. Recommended Printed Circuit Board Layout The pulses at the transformer output have an amplitude greater In applications involving high common-mode transients, ensure than 1.0 V. The decoder has a sensing threshold at approximately that board coupling across the isolation barrier is minimized. 0.5 V, thus establishing a 0.5 V margin in which induced voltages Furthermore, design the board layout such that any coupling that can be tolerated. The voltage induced across the receiving coil is does occur affects all pins equally on a given component side. given by Failure to ensure this can cause voltage differentials between pins exceeding the absolute maximum ratings for the device as V = (−dβ/dt) ∑ πrn2; n = 1, 2, … , N specified in Table 18, thereby leading to latch-up or permanent where: damage. β is the magnetic flux density (gauss). See the AN-1109 Application Note for board layout guidelines. rn is the radius of the nth turn in the receiving coil (cm). N is the number of turns in the receiving coil. PROPAGATION DELAY-RELATED PARAMETERS Given the geometry of the receiving coil in the ADuM2200/ Propagation delay is a parameter that describes the length of ADuM2201 and an imposed requirement that the induced time it takes for a logic signal to propagate through a component. voltage be, at most, 50% of the 0.5 V margin at the decoder, The propagation delay to a logic low output can differ from the a maximum allowable magnetic field is calculated as shown propagation delay to a logic high output. in Figure 14. INPUT (VIx) 50% 100 X tPLH tPHL LU OUTPUT (VOx) 50% 07235-018 NETIC F 10 Figure 13. Propagation Delay Parameters AGss) Pulse width distortion is the maximum difference between LE Mkgau 1 tahcecsuer atwteoly p trhoep taimgaitniogn o df ethlaey ivnapluute ss iagnnda li sis a pnr einsedrivceatdi.o n of how ALLOWABDENSITY (0.1 Channel-to-channel matching refers to the maximum amount UM that the propagation delay differs between channels within a XIM 0.01 A single ADuM2200/ADuM2201 component. M Pthreo pparogaptaigoant idoenla dye slakye wd irfefefersr sb teot wtheee nm maxuilmtipulme AamDuouMn2t 2t0h0a/t 0.0011k 10kMAGNETI1C0 0FkIELD FREQ1MUENCY (Hz1)0M 100M 07235-019 ADuM2201 components operated under the same conditions. Figure 14. Maximum Allowable External Magnetic Flux Density Rev. G | Page 13 of 17

ADuM2200/ADuM2201 Data Sheet For example, at a magnetic field frequency of 1 MHz, the POWER CONSUMPTION maximum allowable magnetic field of 0.2 kgauss induces a voltage The supply current at a given channel of the ADuM2200/ of 0.25 V at the receiving coil. This voltage is approximately ADuM2201 isolators is a function of the supply voltage, the 50% of the sensing threshold and does not cause a faulty output channel data rate, and the channel output load. transition. Similarly, if such an event occurs during a transmitted For each input channel, the supply current is given by pulse (and is of the worst-case polarity), it reduces the received pulse from >1.0 V to 0.75 V—still well above the 0.5 V sensing I = I f ≤ 0.5f DDI DDI (Q) r threshold of the decoder. I = I × (2f − f) + I f > 0.5f DDI DDI (D) r DDI (Q) r The preceding magnetic flux density values correspond to For each output channel, the supply current is given by specific current magnitudes at given distances from the I = I f ≤ 0.5f ADuM2200/ADuM2201 transformers. Figure 15 expresses DDO DDO (Q) r these allowable current magnitudes as a function of frequency I = (I + (0.5 × 10−3) × C × V ) × (2f − f) + I DDO DDO (D) L DDO r DDO (Q) for selected distances. As shown in Figure 15, the ADuM2200/ f > 0.5f r ADuM2201 are immune and can be affected only by extremely where: large currents operated at high frequency very close to the I , I are the input and output dynamic supply currents DDI (D) DDO (D) component. For the 1 MHz example noted, a 0.5 kA current per channel (mA/Mbps). placed 5 mm away from the ADuM2200/ADuM2201 is I , I are the specified input and output quiescent DDI (Q) DDO (Q) required to affect the operation of the component. supply currents (mA). 1000 C is the output load capacitance (pF). L A) DISTANCE = 1m VDDO is the output supply voltage (V). k T ( 100 f is the input logic signal frequency (MHz, half of the input data N E rate, NRZ signaling). R R U f is the input stage refresh rate (Mbps). C r E 10 ABL DISTANCE = 100mm To calculate the total IDD1 and IDD2, the supply currents for each W input and output channel corresponding to I and I are O DD1 DD2 L 1 AL DISTANCE = 5mm calculated and totaled. M MU Figure 6 and Figure 7 provide per-channel supply currents as a AXI 0.1 function of data rate for an unloaded output condition. Figure 8 M provides per-channel supply current as a function of data rate for 0.01 a 15 pF output condition. Figure 9 through Figure 11 provide total 1k 10MkAGNET1IC0 0FkIELD FRE1QMUENCY (H1z0)M 100M 07235-020 AIDDD1u aMnd2 2ID0D12 cahs aan fnuenl cctoionnfi gouf rdaattiao nras.t e for the ADuM2200/ Figure 15. Maximum Allowable Current for Various Current-to-ADuM2200/ADuM2201 Spacings Note that at combinations of strong magnetic field and high frequency, any loops formed by printed circuit board traces can induce error voltages sufficiently large to trigger the thresholds of succeeding circuitry. Care should be taken in the layout of such traces to avoid this possibility. Rev. G | Page 14 of 17

Data Sheet ADuM2200/ADuM2201 INSULATION LIFETIME In the case of unipolar ac or dc voltage, the stress on the insulation is significantly lower. This allows operation at higher working All insulation structures eventually break down when subjected voltages while still achieving a 50-year service life. The working to voltage stress over a sufficiently long period. The rate of voltages listed in Table 19 can be applied while maintaining the insulation degradation is dependent on the characteristics of the 50-year minimum lifetime, provided that the voltage conforms voltage waveform applied across the insulation. In addition to the to either the unipolar ac or dc voltage cases. testing performed by the regulatory agencies, Analog Devices carries out an extensive set of evaluations to determine the Any cross-insulation voltage waveform that does not conform to lifetime of the insulation structure within the ADuM2200/ Figure 17 or Figure 18 should be treated as a bipolar ac waveform ADuM2201 devices. and its peak voltage should be limited to the 50-year lifetime voltage value listed in Table 19. Analog Devices performs accelerated life testing using voltage levels higher than the rated continuous working voltage. Note that the voltage presented in Figure 17 is shown as sinusoidal Acceleration factors for several operating conditions are for illustration purposes only. It is meant to represent any voltage determined. These factors allow calculation of the time to failure waveform varying between 0 V and some limiting value. The at the actual working voltage. limiting value can be positive or negative, but the voltage cannot cross 0 V. The values shown in Table 19 summarize the peak voltage for 50 years of service life for a bipolar ac operating condition and RATED PEAK VOLTAGE the maximum CSA/VDE approved working voltages. In many csearsvesic, et hlief ea pvporltoavgeed. Owpoerkraintigo nv oaltt athgee sies hhiigghh ewr othrkainn gth veo 5lt0a-gyeesa r 0V 07235-021 Figure 16. Bipolar AC Waveform can lead to shortened insulation life in some cases. RATED PEAK VOLTAGE The insulation lifetime of the ADuM2200/ADuM2201 depends oTnh eth ieC vooultpalgeer winasvuelfaotrimon t sytpreu icmtuproes dedeg arcardoesss taht ed iisfofelarteinotn r baaterrsi,e r. 0V 07235-022 Figure 17. Unipolar AC Waveform depending on whether the waveform is bipolar ac, unipolar ac, or dc. Figure 16, Figure 17, and Figure 18 illustrate these RATED PEAK VOLTAGE different isolation voltage waveforms. Bipolar ac voltage is the most stringent environment. The goal 0V 07235-023 of a 50-year operating lifetime under the bipolar ac condition Figure 18. DC Waveform determines the maximum working voltage recommended by Analog Devices. Rev. G | Page 15 of 17

ADuM2200/ADuM2201 Data Sheet OUTLINE DIMENSIONS 10.50(0.4134) 10.10(0.3976) 16 9 7.60(0.2992) 7.40(0.2913) 1 8 10.65(0.4193) 10.00(0.3937) 1.27(0.0500) 0.75(0.0295) BSC 2.65(0.1043) 0.25(0.0098) 45° 0.30(0.0118) 2.35(0.0925) 8° 0.10(0.0039) 0° COPLANARITY 0.10 0.51(0.0201) SPLEAATNIENG 0.33(0.0130) 1.27(0.0500) 0.31(0.0122) 0.20(0.0079) 0.40(0.0157) C(RINEOFNPEATRRREOENNLCLTEIHNCEOGOSNDMELISPYM)LAEAIANNRNDSETIAORTRNOOESUJNANEORDDETEEDAICN-POSMPFTRIFALONLMPIDMIRLAELIRATIMTDEEESRTFSMEO;SRIRN-0ECU1QH3SU-EADIVAIINMAELDENENSSTIIOGSNNFS.OR 03-27-2007-B Figure 19. 16-Lead Standard Small Outline Package [SOIC_W] Wide Body (RW-16) Dimensions shown in millimeters and (inches) 12.85 12.75 12.65 1.93 REF 16 9 7.60 7.50 7.40 10.51 1 8 10.31 PIN 1 10.11 MARK 0.71 2.64 0.25 BSC 0.50 45° 2.44 GAGE 0.31 2.24 2.54 PLANE 0.32 2.44 0.23 0.30 0.20 SEATING 8° 0.10 1.27 BSC PLANE 0° 0.46 1.01 COPLANARITY 0.1 CO0M.3P6LIANTTO JEDEC STANDARDS MS-013-A00..C7561 11-15-2011-A Figure 20. 16-Lead Standard Small Outline Package, with Increased Creepage [SOIC_IC] Wide Body (RI-16-2) Dimensions shown in millimeters Rev. G | Page 16 of 17

Data Sheet ADuM2200/ADuM2201 ORDERING GUIDE Number Number Maximum Maximum Maximum of Inputs, of Inputs, Data Rate Propagation Pulse Width Temperature Package Package Model1, 2, 3 V Side V Side (Mbps) Delay, 5 V (ns) Distortion (ns) Range Description Option DD1 DD2 ADuM2200ARIZ 2 0 1 150 40 −40°C to +105°C 16-Lead SOIC_IC RI-16-2 ADuM2200ARWZ 2 0 1 150 40 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM2200WARWZ 2 0 1 150 40 −40°C to +125°C 16-Lead SOIC_W RW-16 ADuM2200BRIZ 2 0 10 50 3 −40°C to +105°C 16-Lead SOIC_IC RI-16-2 ADuM2200BRWZ 2 0 10 50 3 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM2200WBRWZ 2 0 10 50 3 −40°C to +125°C 16-Lead SOIC_W RW-16 ADuM2201ARIZ 1 1 1 150 40 −40°C to +105°C 16-Lead SOIC_IC RI-16-2 ADuM2201ARWZ 1 1 1 150 40 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM2201WARWZ 1 1 1 150 40 −40°C to +125°C 16-Lead SOIC_W RW-16 ADuM2201BRIZ 1 1 10 50 3 −40°C to +105°C 16-Lead SOIC_IC RI-16-2 ADuM2201BRWZ 1 1 10 50 3 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM2201WBRWZ 1 1 10 50 3 −40°C to +125°C 16-Lead SOIC_W RW-16 1 Z = RoHS Compliant Part. 2 W = Qualified for Automotive Applications. 3 Tape and reel is available. The addition of an -RL suffix designates a 13” (1,000 units) tape and reel option. AUTOMOTIVE PRODUCTS The ADuM2200W and ADuM2201W models are available with controlled manufacturing to support the quality and reliability requirements of automotive applications. Note that these automotive models may have specifications that differ from the commercial models; therefore, designers should review the Specifications section of this data sheet carefully. Only the automotive grade products shown are available for use in automotive applications. Contact your local Analog Devices account representative for specific product ordering information and to obtain the specific Automotive Reliability reports for these models. ©2008–2015 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. D07235-0-9/15(G) Rev. G | Page 17 of 17

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