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ADCMP396ARZ

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ADCMP396ARZ

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Part Number ADCMP396ARZ
Manufacturer Analog Devices Inc.
Description IC COMPARATOR QUAD RRO 16SOIC
Datasheet ADCMP396ARZ Datasheet
Package 16-SOIC (0.154", 3.90mm Width)
In Stock 1,434 piece(s)
Unit Price $ 2.7600 *
Lead Time Can Ship Immediately
Estimated Delivery Time Jul 14 - Jul 19 (Choose Expedited Shipping)
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Part Number # ADCMP396ARZ (Linear - Comparators) is manufactured by Analog Devices Inc. and distributed by Heisener. Being one of the leading electronics distributors, we carry many kinds of electronic components from some of the world’s top class manufacturers. Their quality is guaranteed by its stringent quality control to meet all required standards.

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ADCMP396ARZ Specifications

ManufacturerAnalog Devices Inc.
CategoryIntegrated Circuits (ICs) - Linear - Comparators
Datasheet ADCMP396ARZDatasheet
Package16-SOIC (0.154", 3.90mm Width)
Series-
TypeGeneral Purpose
Number of Elements4
Output TypeOpen Drain
Voltage - Supply, Single/Dual (±)2.3 V ~ 5.5 V
Voltage - Input Offset (Max)2.5mV @ 5V
Current - Input Bias (Max)30nA
Current - Output (Typ)-
Current - Quiescent (Max)59.4µA
CMRR, PSRR (Typ)74dB CMRR, 80dB PSRR
Propagation Delay (Max)-
Hysteresis4mV
Operating Temperature-40°C ~ 125°C
Package / Case16-SOIC (0.154", 3.90mm Width)
Mounting TypeSurface Mount
Supplier Device Package16-SOIC

ADCMP396ARZ Datasheet

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Single/Dual/Quad Comparators with Accurate Reference Output Data Sheet ADCMP394/ADCMP395/ADCMP396 Rev. B 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 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. Trademarks and registered trademarks are the property of their respective owners. One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. Tel: 781.329.4700 ©2014–2016 Analog Devices, Inc. All rights reserved. Technical Support www.analog.com FEATURES High accuracy reference output voltage: 1 V ± 0.9% Single-supply voltage operation: 2.3 V to 5.5 V Rail-to-rail common-mode input voltage range Low input offset voltage across VCMR: 1 mV typical Guarantees comparator output logic low from VCC = 0.9 V to undervoltage lockout (UVLO) Operating temperature range: −40°C to +125°C Package types: 8-lead, narrow body SOIC (ADCMP394) 10-lead MSOP (ADCMP395) 16-lead, narrow body SOIC (ADCMP396) APPLICATIONS Battery management/monitoring Power supply detection Window comparators Threshold detectors/discriminators Microprocessor systems GENERAL DESCRIPTION The ADCMP394/ADCMP395/ADCMP396 are single/dual/quad rail-to-rail input, low power comparator ideal for use in general- purpose applications. These comparators operate from a supply voltage of 2.3 V to 5.5 V and draw a minimal amount of current. The single ADCMP394 consumes only 33.9 μA of supply current. The dual ADCMP395 and quad ADCMP396 consumes 37.2 μA and 41.6 μA of supply current respectively. The low voltage and low current operation of these devices makes it ideal for battery-powered systems. The comparators features a common-mode input voltage range of 200 mV beyond rails, an offset voltage of 1 mV typical across the full common-mode range, and a UVLO monitor. In addition, the design of the comparator allows a defined output state upon power-up. The comparator generates a logic low output if the supply voltage is less than the UVLO threshold. The ADCMP394/ADCMP395/ADCMP396 incorporates a 1 V ± 0.9% buffered reference voltage. The reference voltage output can directly connect to the comparator input to serve as the trip value for precise monitoring and detection of positive voltage. It can also act as an offset when monitoring the negative voltage. The ADCMP394 and ADCMP396 are available in 8-pin and 16- lead, narrow body SOIC package, respectively. The ADCMP395 is available in a 10-lead MSOP package. The comparators are specified to operate over the −40°C to +125°C extended temperature range. FUNCTIONAL BLOCK DIAGRAMS Figure 1. Figure 2. Figure 3. OUT IN+ REF REF IN– GND VCC ADCMP394 12 20 9- 00 1 OUTA INA+ INA– OUTB INB+ INB– GND VCC ADCMP395 REF REF 12 20 9- 20 2 OUTA INA+ REF INA– OUTB INB+ INB– OUTC INC+ INC– OUTD IND+ IND– REF GND VCC ADCMP396 12 20 9- 20 3

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ADCMP394/ADCMP395/ADCMP396 Data Sheet Rev. B | Page 2 of 18 TABLE OF CONTENT Features .............................................................................................. 1 Applications ....................................................................................... 1 General Description ......................................................................... 1 Functional Block Diagrams ............................................................. 1 Revision History ............................................................................... 2 Specifications ..................................................................................... 3 Absolute Maximum Ratings ............................................................ 4 Thermal Resistance ...................................................................... 4 ESD Caution .................................................................................. 4 Pin Configurations and Function Descriptions ........................... 5 Typical Performance Characteristics ............................................. 7 Theory of Operation ...................................................................... 11 Basic Comparator ....................................................................... 11 Rail-to-Rail Input (RRI) ............................................................ 11 Open-Drain Output ................................................................... 11 Power-Up Behavior .................................................................... 11 Crossover Bias Point .................................................................. 11 Comparator Hysteresis .............................................................. 11 Typical Applications ....................................................................... 12 Adding Hysteresis....................................................................... 12 Window Comparator for Positive Voltage Monitoring ......... 12 Window Comparator for Negative Voltage Monitoring ....... 13 Programmable Sequencing Control Circuit ............................... 13 Mirrored Voltage Sequencer Example ..................................... 15 Threshold and Timeout Programmable Voltage Supervisor 16 Outline Dimensions ....................................................................... 17 Ordering Guide .......................................................................... 18 REVISION HISTORY 5/16—Rev. A to Rev. B Changes to Equation 4 ................................................................... 12 Changes to Figure 39 ...................................................................... 14 3/15—Rev. 0 to Rev. A Added ADCMP395/ADCMP396 (Throughout) ......................... 1 11/14—Revision 0: Initial Version

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Data Sheet ADCMP394/ADCMP395/ADCMP396 Rev. B | Page 3 of 18 SPECIFICATIONS VCC = 2.3 V to 5.5 V, TA = −40°C to +125°C, VCMR = −200 mV to VCC + 200 mV, unless otherwise noted. Typical values are at TA = 25°C. Table 1. Parameter Symbol Min Typ Max Unit Test Conditions/Comments1 POWER SUPPLY Supply Voltage Range VCC 2.3 5.5 V 0.9 UVLORISE V Guarantees comparator output low VCC Quiescent Current ICC ADCMP394 33.9 47.9 µA All outputs in high-Z state, VOD = 0.1 V 32.6 45.8 µA All outputs low, VOD = 0.1 V ADCMP395 37.2 51.9 µA All outputs in high-Z state, VOD = 0.1 V 35.9 49.2 µA All outputs low, VOD = 0.1 V ADCMP396 41.6 59.4 µA All outputs in high-Z state, VOD = 0.1 V 41.3 56.4 µA All outputs low, VOD = 0.1 V UNDERVOLTAGE LOCKOUT VCC Rising UVLORISE 2.062 2.162 2.262 V Hysteresis UVLOHYS 5 25 50 mV REFERENCE OUTPUT Reference Output Voltage VREF 0.991 1 1.008 V IREF = ±1 mA, TA = −40°C to +85°C 0.991 1 1.008 V IREF = ±1 mA COMPARATOR INPUT Common-Mode Input Range VCMR −200 VCC + 200 mV Input Offset Voltage VOS 0.5 2.5 mV IN+ = IN− = 1 V 0.5 2.5 mV IN+ = IN− = 1 V, TA = −40°C to +85°C 1 5 mV 1 5 mV TA = −40°C to +85°C Input Offset Current IOS 10 nA VCMR = −50 mV to VCC + 50 mV Input Bias Current IBIAS ±30 nA IN+ = IN− = 1 V ±80 nA VCMR = −50 mV to VCC + 50 mV ±10 nA VCMR = −50 mV to VCC + 50 mV, TA = −40°C to +85°C Input Hysteresis VHYST 3 4 mV VCM = 1 V 6 8 mV COMPARATOR OUTPUT Output Low Voltage VOL 0.1 0.3 V VCC = 2.3 V, ISINK = 2.5 mA 0.01 0.15 V VCC = 0.9 V, ISINK = 100 µA Output Leakage Current ILEAK 150 nA VOUT = 0 V to 5.5 V COMPARATOR CHARACTERISTICS Power Supply Rejection Ratio PSRR 60 80 dB Common-Mode Rejection Ratio CMRR 50 74 dB Voltage Gain AV 132 dB Rise Time2 tR 1.1 µs VOUT = 10% to 90% of VCC Fall Time2 tF 0.15 µs VOUT = 90% to 10% of VCC Propagation Delay Input Rising2 tPROP_R 4.7 µs VCM = 1 V, VCC = 2.3 V, VOD = 10 mV 4.9 µs VCM = 1 V, VCC = 5 V, VOD = 10 mV 2.8 µs VCM = 1 V, VCC = 2.3 V, 100 mV overdrive 3.2 µs VCM = 1 V, VCC = 5 V, 100 mV overdrive ADCMP395 Channel B 4.9 µs VCM = 1 V, VCC = 2.3 V, VOD = 10 mV 9.7 µs VCM = 1 V, VCC = 5 V, VOD= 10 mV Input Falling2 tPROP_F 4.5 µs VCM = 1 V, VCC = 2.3 V, VOD = 10 mV 9.5 µs VCM = 1 V, VCC = 5 V, VOD = 10 mV 2 µs VCM = 1 V, VCC = 2.3 V, 100 mV overdrive 4.2 µs VCM = 1 V, VCC = 5 V, 100 mV overdrive ADCMP395 Channel B 4.7 µs VCM = 1 V, VCC = 2.3 V, VOD = 10 mV 5 µs VCM = 1 V, VCC = 5 V, VOD = 10 mV 1 VOD is overdrive voltage. 2 RPULL-UP = 10 kΩ, and CL = 50 pF.

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ADCMP394/ADCMP395/ADCMP396 Data Sheet Rev. B | Page 4 of 18 ABSOLUTE MAXIMUM RATINGS Table 2. Parameter Rating VCC Pin −0.3 V to +6 V All INx+ and INx− Pins −0.3 V to +6 V All OUTx Pins −0.3 V to +6 V Reference Load Current, IREF ±1 mA OUTx Pins Sink Current, ISINK 10 mA Storage Temperature Range −65°C to +150°C Operating Temperature Range −40°C to +125°C Lead Temperature (10 sec) 300°C Junction Temperature 150°C Stresses at or above those listed under Absolute Maximum Ratings may cause permanent damage to the product. This is a stress rating only; functional operation of the product at these or any other conditions above those indicated in the operational section of this specification is not implied. Operation beyond the maximum operating conditions for extended periods may affect product reliability. THERMAL RESISTANCE Table 3. Thermal Resistance Package Type θJA Unit 8-Lead Narrow-Body SOIC 121 °C/W 10-Lead MSOP 130 °C/W 16-Lead Narrow-Body SOIC 80 °C/W ESD CAUTION

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Data Sheet ADCMP394/ADCMP395/ADCMP396 Rev. B | Page 5 of 18 PIN CONFIGURATIONS AND FUNCTION DESCRIPTIONS Figure 4. ADCMP394 Pin Configuration Table 4. ADCMP394 Pin Function Descriptions Pin No. Mnemonic Description 1 GND Device Ground. 2, 5 NIC Not Internally Connected. 3 IN+ Comparator Noninverting Input. 4 IN− Comparator Inverting Input. 6 REF Reference Output. This pin can be used to setup the comparator threshold. 7 VCC Device Supply Input. 8 OUT Comparator Output, Open-Drain. Figure 5. ADCMP395 Pin Configuration Table 5. ADCMP395 Pin Function Descriptions Pin No. Mnemonic Description 1 OUTA Comparator A Output, Open Drain. 2 VCC Device Supply Input. 3 INA− Comparator A Inverting Input. 4 INA+ Comparator A Noninverting Input. 5 NIC Not Internally Connected. 6 REF Reference Output. This pin can be used to set up comparator threshold. 7 INB+ Comparator B Noninverting Input. 8 INB− Comparator B Inverting Input. 9 GND Device Ground. 10 OUTB Comparator B Output, Open Drain. GND 1 NIC 2 IN+ 3 IN– 4 OUT8 VCC7 REF6 NIC5 ADCMP394 TOP VIEW (Not to Scale) NOTES 1. NIC = NOT INTERNALLY CONNECTED. 12 20 9- 00 2 ADCMP395 TOP VIEW (Not to Scale) NIC = NOT INTERNALLY CONNECTED. OUTA 1 VCC 2 INA– 3 INA+ 4 NIC 5 OUTB10 GND9 INB–8 INB+7 REF6 12 20 9- 20 5

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ADCMP394/ADCMP395/ADCMP396 Data Sheet Rev. B | Page 6 of 18 Figure 6. ADCMP396 Pin Configuration Table 6. ADCMP396 Pin Function Descriptions Pin No. Mnemonic Description 1 OUTB Comparator B Output, Open Drain. 2 OUTA Comparator A Output, Open Drain. 3 VCC Device Supply Input. 4 INA− Comparator A Inverting Input. 5 INA+ Comparator A Noninverting Input. 6 INB− Comparator B Inverting Input. 7 INB+ Comparator B Noninverting Input. 8 NIC Not Internally Connected. 9 REF Reference Output. This pin can be used to set up the comparator threshold. 10 INC− Comparator C Inverting Input. 11 INC+ Comparator C Noninverting Input. 12 IND− Comparator D Inverting Input. 13 IND+ Comparator D Noninverting Input. 14 GND Device Ground. 15 OUTD Comparator D Output, Open Drain. 16 OUTC Comparator C Output, Open Drain. OUTB 1 OUTA 2 VCC 3 INA– 4 OUTC16 OUTD15 GND14 IND+13 INA+ 5 IND–12 INB– 6 INC+11 INB+ 7 INC–10 NIC 8 REF9 ADCMP396 TOP VIEW (Not to Scale) NIC = NOT INTERNALLY CONNECTED. 12 20 9- 20 6

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Data Sheet ADCMP394/ADCMP395/ADCMP396 Rev. B | Page 7 of 18 TYPICAL PERFORMANCE CHARACTERISTICS Figure 7. Input Offset Voltage (VOS) vs. Common-Mode Voltage (VCM), VCC = 3.3 V Figure 8. Input Offset Voltage (VOS) vs. Temperature for Various Supply Voltages, VCM = 1 V Figure 9. Supply Current (ICC) vs. Supply Voltage (VCC) at Output Low Voltage Figure 10. Input Offset Voltage (VOS) vs. Supply Voltage (VCC), VCM = 1 V for Various Temperatures Figure 11. Output Voltage (VOUT) vs. Supply Voltage (VCC), RPULLUP = 10 kΩ Figure 12. Supply Current (ICC) vs. Supply Voltage (VCC) at Output High Voltage 2.5 –2.5 –2.0 –1.5 –1.0 –0.5 0 0.5 1.0 1.5 2.0 –0.5 3.53.02.52.01.51.00.50 IN P U T O F F S E T V O L T A G E ( m V ) COMMON-MODE VOLTAGE (V) SAMPLE 1 SAMPLE 2 SAMPLE 3 12 20 9- 20 7 2.5 –2.5 –2.0 –1.5 –1.0 –0.5 0 0.5 1.0 1.5 2.0 –40 –25 –10 5 20 35 50 65 80 95 110 125 IN P U T O F F S E T V O L T A G E ( m V ) TEMPERATURE (°C) VCC = 2.3V VCC = 3.3V VCC = 5.5V 12 20 9- 20 8 2.0 5.55.04.54.03.53.02.5 S U P P L Y C U R R E N T ( µ A ) SUPPLY VOLTAGE (V) 12 20 9- 20 925 30 35 40 45 50 55 60 65 70 ADCMP394 ADCMP395 ADCMP396 2.5 –2.5 –2.0 –1.5 –1.0 –0.5 0 0.5 1.0 1.5 2.0 2.3 5.55.14.74.33.93.53.12.7 IN P U T O F F S E T V O L T A G E ( m V ) SUPPLY VOLTAGE (V) TA = +25°C TA = +85°C TA = +125°C TA = –40°C 12 20 9- 21 0 2.4 2.2 2.0 1.8 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0 0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 O U T P U T V O L T A G E ( V ) SUPPLY VOLTAGE (V) IN+ = IN– + 10mV VCM = IN– = 1V 12 20 9- 21 1 2.0 5.55.04.54.03.53.02.5 12 20 9- 21 225 30 35 40 45 50 55 60 65 70 S U P P LY C U R R E N T ( u A ) SUPPLY VOLTAGE (V) ADCMP394 ADCMP395 ADCMP396

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ADCMP394/ADCMP395/ADCMP396 Data Sheet Rev. B | Page 8 of 18 Figure 13. Supply Current (ICC) vs. Temperature at Output High Voltage (VOH) Figure 14. Input Hysteresis vs. Supply Voltage (VCC), VCM = 1 V for Various Temperatures Figure 15. Propagation Delay vs. Temperature, Low to High, VOD = 10 mV Figure 16. Supply Current (ICC) vs. Temperature at Output Low Voltage (VOL) Figure 17. Input Hysteresis vs. Temperature, VCM = 1 V for Various Supply Voltages (VCC) Figure 18. Propagation Delay vs. Temperature, High to Low, VOD = 10 mV –50 1251007550250–25 12 20 9- 21 315 25 35 45 55 65 S U P P LY C U R R E N T ( µ A ) TEMPERATURE(°C) ADCMP394 ADCMP395 ADCMP396 3.9 1.7 1.9 2.1 2.3 2.5 2.7 2.9 3.1 3.3 3.5 3.7 2.3 5.55.14.74.33.93.53.12.7 IN P U T H Y S T E R E S IS ( m V ) SUPPLY VOLTAGE (V) TA = +25°C TA = +85°C TA = +125°C TA = –40°C 12 20 9- 21 4 8 7 6 5 4 3 2 –50 1251007550250–25 P R O P A G A T IO N D E L A Y ( µ s) TEMPERATURE (°C) VCC = 2.3V VCC = 3.3V VCC = 5.5V 12 20 9- 21 5 –50 1251007550250–25 TEMPERATURE (°C) 15 25 35 45 55 65 S U P P LY C U R R E N T ( µ A ) ADCMP394 ADCMP395 ADCMP396 12 20 9- 21 6 –50 1251007550250–25 3.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 IN P U T H Y S T E R E S IS ( m V ) TEMPERATURE (°C) VCC = 2.3V VCC = 3.3V VCC = 5.5V 12 20 9- 21 7 14 10 12 8 6 4 2 0 –50 1251007550250–25 P R O P A G A T IO N D E L A Y ( µ s) TEMPERATURE (°C) VCC = 2.3V VCC = 3.3V VCC = 5.5V 12 20 9- 21 8

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Data Sheet ADCMP394/ADCMP395/ADCMP396 Rev. B | Page 9 of 18 Figure 19. Propagation Delay vs. Input Overdrive Voltage, Low to High Figure 20. Propagation Delay vs. Input Overdrive Voltage, Low to High, Channel B Figure 21. Output Voltage Rise Time (tR) vs. Pull-Up Resistance (RPULLUP) Figure 22. Propagation Delay vs. Input Overdrive Voltage, High to Low Figure 23. Propagation Delay vs. Input Overdrive Voltage, High to Low, Channel B Figure 24. Output Voltage Fall Time (tF) vs. Pull-Up Resistance (RPULLUP) 6.0 5.5 5.0 4.5 4.0 3.5 3.0 2.5 2.0 1.5 10 1009080706050403020 P R O P A G A T IO N D E L A Y ( µ s) INPUT OVERDRIVE VOLTAGE (mV) VCC = 2.3V VCC = 3.3V VCC = 5.5V RPULLUP = 10kΩ CL = 50pF VCM = 1V 12 20 9- 21 9 12 10 8 6 4 2 0 10 90705030 P R O P A G A T IO N D E L A Y ( µ s) INPUT OVERDRIVE VOLTAGE (mV) VCC = 2.3V VCC = 3.3V VCC = 5.5V RPULL-UP = 10kΩ CL = 50pF VCM = 1V 12 20 9- 22 0 18 16 14 12 10 8 6 4 2 0 1 10010 O U T P U T V O L T A G E R IS E T IM E ( µ s) PULL-UP RESISTANCE (kΩ) VCC = 3.3V CL = 50pF 12 20 9- 22 1 10 9 8 7 6 5 4 3 2 1 10 1009080706050403020 P R O P A G A T IO N D E L A Y ( µ s) INPUT OVERDRIVE VOLTAGE (mV) VCC = 2.3V VCC = 3.3V VCC = 5.5V RPULL-UP = 10kΩ CL = 50pF VCM = 1V 12 20 9- 22 2 5.0 4.5 4.0 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0 10 90705030 P R O P A G A T IO N D E L A Y ( µ s) INPUT OVERDRIVE VOLTAGE (mV) VCC = 2.3V VCC = 3.3V VCC = 5.5V RPULL-UP = 10kΩ CL = 50pF VCM = 1V 12 20 9- 22 3 200 190 180 170 160 150 140 130 120 110 100 1 10010 O U T P U T V O L T A G E F A L L T IM E ( µ s) PULL-UP RESISTANCE (kΩ) VCC = 3.3V CL = 50pF 12 20 9- 22 4

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Carl*****vedi

July 1, 2020

Great product & fast shipping. Works as they should.

Zek*****adav

June 30, 2020

Nice to have an assortment on hand, just in case. Happy with this purchase.

Saman*****iggins

June 26, 2020

Perfectly satisfied with item. Top supplier on my list.

Chand*****oover

June 25, 2020

I love this website, and get a quick response. Good experience! Good customer service.

Amo*****oyal

June 19, 2020

ADCMP396ARZ arrived in great condition, very happy, Would buy again. A++ . thank you!!

Isabe*****eshmukh

June 13, 2020

These function just as well. You do need to spend some time modifying the harness, but no big deal.

Anal*****armon

June 10, 2020

The specs range is wide for a selection and the customer service is great.

Kys*****Sami

June 10, 2020

What can I say, great value for the money. I only needed 2 but now I have some spares for future projects. They got the job done, nothing more I can say.

Win***** Dash

May 24, 2020

Always have what I need, fast and easy for making an order, fast shipping and great service! That about covers it! Many Thanks!

Ambe*****ughan

May 22, 2020

Good seller, incredible reliable.Item as described. Very professional

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