Rail-to-Rail Amplifiers AD8031/AD8032 CONNECTION DIAGRAMS 8-Lead
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FEATURES Power Supply Current A/Amplifier Fully Specified +2.7 Supplies High Speed Fast Settling Bandwidth Slew Rate Settling Time 0.1% Rail-to-Rail Input Output Phase Reversal with Input Beyond Supplies Input CMVR Extends Beyond Rails Output Swing Within Either Rail Distortion MHz, kHz, Output Current: High Grade Option (max) APPLICATIONS High-Speed Battery-Operated Systems High Component Density Systems Portable Test Instruments Buffer Active Filters High-Speed Set-and-Demand Amplifier
Rail-to-Rail Amplifiers AD8031/AD8032
CONNECTION DIAGRAMS 8-Lead Plastic SOIC Packages 8-Lead Plastic (N), SOIC SOIC (RM) Packages
OUT1 -IN1 +IN1 OUT2 -IN2
AD8031
AD8032
+IN2
CONNECT
5-Lead Plastic Surface Mount Package SOT-23-5 (RT-5)
VOUT (Not Scale)
AD8031
high-speed systems where component density requires lower power dissipation. AD8031/AD8032 available 8-lead plastic SOIC packages will operate over industrial temperature range -40°C +85°C. AD8031A also available space-saving 5-lead SOT-23-5 package AD8032A available 8-lead µSOIC package.
GENERAL DESCRIPTION
AD8031 (single) AD8032 (dual) single supply voltage feedback amplifiers feature high-speed performance with small signal bandwidth, V/µs slew rate settling time. This performance possible while consuming less than power from single supply. These features increase operation time high speed battery-powered systems without compromising dynamic performance. products have true single supply capability with rail-to-rail input output characteristics specified +2.7 supplies. input voltage range extend beyond each rail. output voltage swings within each rail providing maximum output dynamic range. AD8031/AD8032 also offer excellent signal quality only supply current amplifier; with p-p, output signal kHz, signal supply. distortion fast settling time make them ideal buffers single supply, A-to-D converters. Operating supplies from +2.7 dual supplies AD8031/AD8032 ideal wide range applications, from battery-operated systems with large bandwidth requirements REV.
Information furnished Analog Devices believed accurate reliable. However, responsibility assumed Analog Devices use, infringements patents other rights third parties which result from use. license granted implication otherwise under patent patent rights Analog Devices.
1V/Div
1V/Div
s/Div
s/Div
Input
Output VOUT
VOUT 1.7pF +2.5V
Circuit Diagram Figure Rail-to-Rail Performance
Technology Way, P.O. 9106, Norwood, 02062-9106, U.S.A. Tel: 781/329-4700 World Wide Site: http://www.analog.com Fax: 781/326-8703 Analog Devices, Inc., 1999
AD8031/AD8032-SPECIFICATIONS
+2.7 Supply
Parameter DYNAMIC PERFORMANCE Small Signal Bandwidth Slew Rate Settling Time 0.1%
+2.7
Conditions
+1.35
unless otherwise noted)
AD8031B/AD8032B Units V/µs nV/Hz pA/Hz pA/Hz
AD8031A/AD8032A
Step Step,
DISTORTION/NOISE PERFORMANCE Total Harmonic Distortion MHz, p-p, kHz, p-p, Input Voltage Noise Input Current Noise Crosstalk (AD8032 Only) PERFORMANCE Input Offset Voltage
VOUT 1.35
0.45
µV/°C
TMIN Offset Drift Input Bias Current Input Offset Current Open Loop Gain
VOUT 0.35 2.35
VOUT 1.35 VOUT 1.35
0.45
TMIN
TMIN INPUT CHARACTERISTICS Common-Mode Input Resistance Differential Input Resistance Input Capacitance Input Voltage Range Input Common-Mode Voltage Range Common-Mode Rejection Ratio Differential Input Voltage OUTPUT CHARACTERISTICS Output Voltage Swing Output Voltage Swing High Output Voltage Swing Output Voltage Swing High Output Current Short Circuit Current Capacitive Load Drive POWER SUPPLY Operating Range Quiescent Current Amplifier Power Supply Rejection Ratio
Specifications subject change without notice.
1.55
-0.5 +3.2 -0.2 +2.9
-0.5 +3.2 -0.2 +2.9
1250
+0.05 +2.6 +0.15 +2.55
Sourcing Sinking (See Figure +2.7
+0.02 +2.68 +0.08 +2.6 1250
+0.05 +2.6 +0.15 +2.55
+0.02 +2.68 +0.08 +2.6
+2.7
+2.7 +3.7
REV.
SPECIFICATIONS
Supply
Parameter DYNAMIC PERFORMANCE Small Signal Bandwidth Slew Rate Settling Time 0.1%
AD8031/AD8032
+2.5 unless otherwise noted)
AD8031B/AD8032B 0.17 0.11 Units V/µs nV/Hz pA/Hz pA/Hz Degrees
Conditions
AD8031A/AD8032A 0.17 0.11
Step Step,
DISTORTION/NOISE PERFORMANCE Total Harmonic Distortion MHz, p-p, kHz, p-p, Input Voltage Noise Input Current Noise Differential Gain Differential Phase Crosstalk (AD8032 Only) PERFORMANCE Input Offset Voltage
VOUT
0.45
µV/°C
TMIN Offset Drift Input Bias Current Input Offset Current Open Loop Gain
VOUT
VOUT VOUT
0.45
TMIN
TMIN INPUT CHARACTERISTICS Common-Mode Input Resistance Differential Input Resistance Input Capacitance Input Voltage Range Input Common-Mode Voltage Range Common-Mode Rejection Ratio Differential Input Voltage OUTPUT CHARACTERISTICS Output Voltage Swing Output Voltage Swing High Output Voltage Swing Output Voltage Swing High Output Current Short Circuit Current Capacitive Load Drive POWER SUPPLY Operating Range Quiescent Current Amplifier Power Supply Rejection Ratio
Specifications subject change without notice.
-0.5 +5.5 -0.2 +5.2
-0.5 +5.5 -0.2 +5.2
1400
+0.05 +4.95 +0.2 +4.8
Sourcing Sinking (See Figure +2.7
+0.02 +4.98 +0.1 +4.9 1400
+0.05 +4.95 +0.2 +4.8
+0.02 +4.98 +0.1 +4.9
+2.7
REV.
AD8031/AD8032-SPECIFICATIONS
Supply
unless otherwise noted)
AD8031A/AD8032A 0.15 0.15 0.45 AD8031B/AD8032B 0.15 0.15 0.45 Units V/µs nV/Hz pA/Hz pA/Hz Degrees µV/°C 1600
Parameter DYNAMIC PERFORMANCE Small Signal Bandwidth Slew Rate Settling Time 0.1%
Conditions Step Step,
DISTORTION/NOISE PERFORMANCE Total Harmonic Distortion MHz, p-p, kHz, p-p, Input Voltage Noise Input Current Noise Differential Gain Differential Phase Crosstalk (AD8032 Only) PERFORMANCE Input Offset Voltage Offset Drift Input Bias Current Input Offset Current Open Loop Gain INPUT CHARACTERISTICS Common-Mode Input Resistance Differential Input Resistance Input Capacitance Input Voltage Range Input Common-Mode Voltage Range Common-Mode Rejection Ratio Differential/Input Voltage OUTPUT CHARACTERISTICS Output Voltage Swing Output Voltage Swing High Output Voltage Swing Output Voltage Swing High Output Current Short Circuit Current Capacitive Load Drive POWER SUPPLY Operating Range Quiescent Current Amplifier Power Supply Rejection Ratio
Specifications subject change without notice.
TMIN TMIN TMIN
+3.5
-5.5 +5.5 -5.2 +5.2
-5.5 +5.5 -5.2 +5.2
-4.94 +4.94 -4.7 +4.7
Sourcing Sinking (See Figure 1.35
-4.98 +4.98 -4.85 +4.75 1600
-4.94 +4.94 -4.7 +4.7
-4.98 +4.98 -4.85 +4.75
1.35
REV.
AD8031/AD8032
ABSOLUTE MAXIMUM RATINGS
NOTES Stresses above those listed under Absolute Maximum Ratings cause permanent damage device. This stress rating only; functional operation device these other conditions above those indicated operational section this specification implied. Exposure absolute maximum rating conditions extended periods affect device reliability. Specification device free air: 8-Lead Plastic Package: 90°C/W. 8-Lead SOIC Package: 155°C/W. 8-Lead µSOIC Package: 200°C/W. 5-Lead SOT-23-5 Package: 240°C/W.
MAXIMUM POWER DISSIPATION Watts
Supply Voltage +12.6 Internal Power Dissipation2 Plastic Package Watts Small Outline Package Watts µSOIC (RM) Watts SOT-23-5 (RT) Watts Input Voltage (Common-Mode) Differential Input Voltage Output Short Circuit Duration Observe Power Derating Curves Storage Temperature Range -65°C +125°C Lead Temperature Range (Soldering sec) +300°C
temperature plastic, approximately +150°C. Exceeding this limit temporarily cause shift parametric performance change stresses exerted package. Exceeding junction temperature +175°C extended period result device failure. While AD8031/AD8032 internally short circuit protected, this sufficient guarantee that maximum junction temperature (+150°C) exceeded under conditions. ensure proper operation, necessary observe maximum power derating curves shown Figure
8-LEAD PLASTIC PACKAGE +150
8-LEAD SOIC PACKAGE
8-LEAD SOIC
SOT-23-5
MAXIMUM POWER DISSIPATION
maximum power that safely dissipated AD8031/AD8032 limited associated rise junction temperature. maximum safe junction temperature plastic encapsulated devices determined glass transition
AMBIENT TEMPERATURE
Figure Maximum Power Dissipation Temperature
ORDERING GUIDE
Model AD8031AN AD8031AR AD8031AR-REEL AD8031AR-REEL7 AD8031ART-REEL AD8031ART-REEL7 AD8031BN AD8031BR AD8031BR-REEL AD8031BR-REEL7 AD8032AN AD8032AR AD8032AR-REEL AD8032AR-REEL7 AD8032ARM AD8032ARM-REEL AD8032ARM-REEL7 AD8032BN AD8032BR AD8032BR-REEL AD8032BR-REEL7 Temperature Range -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C -40°C +85°C Package Descriptions 8-Lead Plastic 8-Lead SOIC Tape Reel Tape Reel Tape Reel Tape Reel 8-Lead Plastic 8-Lead SOIC Tape Reel Tape Reel 8-Lead Plastic 8-Lead SOIC Tape Reel Tape Reel 8-Lead µSOIC Tape Reel Tape Reel 8-Lead Plastic 8-Lead SOIC Tape Reel Tape Reel Package Options SO-8 SO-8 SO-8 RT-5 RT-5 SO-8 SO-8 SO-8 SO-8 SO-8 SO-8 RM-8 RM-8 RM-8 SO-8 SO-8 SO-8 Brand Code
CAUTION (electrostatic discharge) sensitive device. Electrostatic charges high 4000 readily accumulate human body test equipment discharge without detection. Although AD8031/AD8032 feature proprietary protection circuitry, permanent damage occur devices subjected high energy electrostatic discharges. Therefore, proper precautions recommended avoid performance degradation loss functionality.
WARNING!
SENSITIVE DEVICE
REV.
AD8031/AD8032-Typical Performance Characteristics
NUMBER PARTS INPUT BIAS CURRENT -200 -400 -600 -800 COMMON-MODE VOLTAGE +2.7V +10V
Figure Typical Distribution
Figure Input Bias Current Common-Mode Voltage
-0.1
OFFSET VOLTAGE
OFFSET VOLTAGE -0.2
-0.3
-0.4
-0.5
-0.6
TEMPERATURE
COMMON-MODE VOLTAGE
Figure Input Offset Voltage Temperature
Figure Common-Mode Voltage
0.95 0.85 INPUT BIAS 0.75 0.65 0.55 TEMPERATURE
1000 +IS, +2.7V +IS,
SUPPLY CURRENT/AMPLIFIER
TEMPERATURE
Figure Input Bias Current Temperature
Figure Supply Current Temperature
REV.
AD8031/AD8032
+2.7V +10V VOUT RLOAD DIFFERENCE FROM Volts -0.5 DIFFERENCE FROM Volts
-1.5 +10V VOUT RLOAD
+2.7V
-2.5
RLOAD Ohms
RLOAD Ohms
Figure +Output Saturation Voltage RLOAD
Figure -Output Saturation Voltage RLOAD
+2.7V DIFFERENCE FROM Volts
+10V VOUT RLOAD
DIFFERENCE FROM Volts
-0.5
VOUT RLOAD
-1.5 +10V
+2.7V
-2.5
RLOAD Ohms
RLOAD Ohms
Figure +Output Saturation Voltage RLOAD
Figure -Output Saturation Voltage RLOAD
+2.7V
+10V VOUT RLOAD
DIFFERENCE FROM Volts
-0.5
VOUT RLOAD
-1.5 +10V
DIFFERENCE FROM Volts
+2.7V
-2.5
RLOAD Ohms
RLOAD Ohms
Figure +Output Saturation Voltage RLOAD
Figure -Output Saturation Voltage RLOAD
REV.
AD8031/AD8032-Typical Performance Characteristics
INPUT BIAS CURRENT -AOL GAIN +AOL -1.5 RLOAD Ohms INPUT VOLTAGE Volts
500mV
500mV
Figure Open-Loop Gain RLOAD
Figure Differential Input Overvoltage Characteristics
0.05 DIFF GAIN
-AOL GAIN
0.00 -0.05 -0.10 -0.15 10th 11th
DIFF PHASE Degrees
+AOL
0.10 0.05 0.00 -0.05 -0.10 10th 11th
TEMPERATURE
Figure Open-Loop Gain Temperature
Figure Differential Gain Phase
RLOAD
INPUT VOLTAGE NOISE VOLTAGE NOISE INPUT CURRENT NOISE
RLOAD
CURRENT NOISE
VOUT
100k FREQUENCY
Figure Open-Loop Gain (AOL) VOUT
Figure Input Voltage Noise Frequency
REV.
AD8031/AD8032
NORMALIZED GAIN FREQUENCY PHASE Degree PHASE -135 -180 -225 FREQUENCY GAIN OPEN-LOOP GAIN
Figure Unity Gain Bandwidth
Figure Open-Loop Frequency Response
NORMALIZED GAIN VOUT TOTAL HARMONIC DISTORTION -16dBm
2.5V +2.7V
1.3V +2.7V
+2.7V 4.8V
FREQUENCY
100k FUNDAMENTAL FREQUENCY
Figure Closed-Loop Gain Temperature
Figure Total Harmonic Distortion Frequency;
TOTAL HARMONIC DISTORTION CLOSED-LOOP GAIN 100k FREQUENCY 100M +2.7V 1.35V 2.5V
4.8V 4.6V
100k FUNDAMENTAL FREQUENCY
Figure Closed-Loop Gain Supply Voltage
Figure Total Harmonic Distortion Frequency;
REV.
AD8031/AD8032-Typical Performance Characteristics
POWER SUPPLY REJECTION RATIO
OUTPUT
+2.7V
-100
-120 100k FREQUENCY 100M
100k FREQUENCY
Figure Large Signal Response
Figure PSRR Frequency
ROUT
2.5V
VOUT
-0.5
FREQUENCY
Figure ROUT Frequency
Figure Output Voltage
COMMON-MODE REJECTION RATIO -0.5 INPUT INPUT 650mV BEYOND RAILS
-100
100k FREQUENCY
Figure CMRR Frequency
Figure Output Voltage Phase Reversal Behavior
-10-
REV.
AD8031/AD8032
+2.5V 2.85 2.35 500mV/Div 500mV/Div 1.85 1.35 0.85 0.35 1.35V +2.7V
Figure Output Swing
Figure Output Swing
200mV/Div
2.5k 20mV/Div
2.56 2.54 2.52 2.50 2.48 2.46 2.44
2.5V 2.5V
50ns/Div
50ns
Figure Step Response
Figure Step Response
CROSSTALK 2.5k 2.5k 2.5k 2.5k VOUT 2.5V +10dBm
-100
TRANSMITTER
FREQUENCY
RECEIVER
Figure Crosstalk Frequency
REV.
-11-
AD8031/AD8032
THEORY OPERATION
AD8031/AD8032 single dual versions high speed, power voltage feedback amplifiers featuring innovative architecture that maximizes dynamic range capability inputs outputs. Linear input common-mode range exceeds either supply voltage amplifiers show phase reversal beyond supply. output swings within either supply when driving light load; when driving Fabricated Analog Devices' XFCB, dielectrically isolated fully complementary bipolar process, amplifier provides impressive bandwidth when used follower V/µs slew rate only supply current. Careful design allows amplifier operate with supply voltage volts.
Input Stage Operation
Switching pair common-mode voltage driven beyond within positive supply allows amplifier provide useful operation signals either supply voltage range eliminates possibility phase reversal input signals beyond either power supply. Offset voltage will also change reflect offset input pair control. transition region small, order These sudden changes parameters input stage produce glitches that will adversely affect distortion.
Overdriving Input Stage
Sustained input differential voltages greater than volts should avoided input transistors damaged. Input clamp diodes recommended possibility this condition exists. voltages collectors input pairs from power supply rails. This allows amplifier remain linear operation input voltages beyond supply voltages. Driving input common-mode voltage beyond that point will forward bias collector junction input transistor, resulting phase reversal. Sustaining this condition length time should avoided easy exceed maximum allowed input differential voltage when amplifier phase reversal.
simplified schematic input stage appears Figure common-mode voltages volts within positive supply, single supply) tail current flows through differential pair, Q17. off; bias current routed parallel differential pair common-mode voltage driven within positive supply, turns routes tail current away from pair pair. During this transition region, amplifier's input current will change magnitude direction. Reusing same tail current ensures that input stage same transconductance (which determines amplifier's gain bandwidth) both regions operation.
1.1V
OUTPUT STAGE, COMMON-MODE FEEDBACK
Figure Simplified Schematic AD8031 Input Stage
-12-
REV.
AD8031/AD8032
Output Stage, Open-Loop Gain Distortion Clearance from Power Supply Output Overdrive Recovery
AD8031 features rail-to-rail output stage. output transistors operate common emitter amplifiers, providing output drive current well large portion amplifier's open-loop gain.
Output overdrive amplifier occurs when amplifier attempts drive output voltage level outside normal range. After overdrive condition removed, amplifier must recover normal operation reasonable amount time. shown Figure AD8031/AD8032 recover within from negative overdrive within from positive overdrive.
VOUT
DIFFERENTIAL DRIVE FROM INPUT STAGE 1.5pF VOUT
2.5V 2.5V
100ns
Figure Output Stage Simplified Schematic
Figure Overdrive Recovery
Driving Capacitive Loads
output voltage limit depends much current output transistors required source sink. applications with very drive requirements unity gain follower driving another amplifier input, instance), AD8031 typically swings within either voltage supply. required current load increases, saturation output voltage will increase linearly ILOAD where ILOAD required load current output transistor collector resistance. AD8031, collector resistances both output transistors typically current load exceeds rated output current amount base drive current required drive output transistor into saturation will reach limit, amplifier's output swing will rapidly decrease. open-loop gain AD8031 decreases approximately linearly with load resistance also depends output voltage. Open-loop gain stays constant within positive power supply, negative power supply then decreases output transistors driven further into saturation. distortion performance AD8031/AD8032 amplifiers differs from conventional amplifiers. Typically amplifier's distortion performance degrades output voltage amplitude increases. Used unity gain follower, AD8031/AD8032 output will exhibit more distortion peak output voltage region around -0.7 This unusual distortion characteristic caused input stage architecture discussed detail section covering "Input Stage Operation."
Capacitive loads interact with amp's output impedance create extra delay feedback path. This reduces circuit stability, cause unwanted ringing oscillation. given value capacitance causes much less ringing when amplifier used with higher noise gain. capacitive load drive AD8031/AD8032 increased adding valued resistor series with capacitive load. Introducing series resistor tends isolate capacitive load from feedback loop, thereby, diminishing influence. Figure shows effects series resistor capacitive drive varying voltage gains. closed-loop gain increased, larger phase margin allows larger capacitive loads with less overshoot. Adding series resistor lower closed-loop gains accomplishes same effect. large capacitive loads, frequency response amplifier will dominated roll-off series resistor capacitive load.
1000 200mV STEP WITH OVERSHOOT CAPACITIVE LOAD
VOUT
CLOSED-LOOP GAIN
Figure Capacitive Load Drive Closed-Loop Gain
REV.
-13-
AD8031/AD8032
APPLICATIONS Single Supply Biquad Bandpass Filter
Figure shows circuit single supply biquad bandpass filter with center frequency MHz. bias level easily created connecting noninverting inputs three amps resistor divider consisting resistors connected between ground. This bias point also decoupled ground with capacitor. frequency response filter shown Figure order maintain accurate center frequency, essential that sufficient loop gain MHz. This requires choice with significantly higher unity gain crossover frequency. unity gain crossover frequency AD8031/AD8032 MHz. Multiplying open-loop gain feedback factors individual circuits yields loop gain each gain stage. From feedback networks individual circuits, that each loop gain least This level high enough ensure that center frequency filter affected amp's bandwidth. example, with gain bandwidth product chosen this application, resulting center frequency would shift MHz.
50pF
GAIN
100k
FREQUENCY
100M
Figure Frequency Response Bandpass Filter
High Performance Single Supply Line Driver
Even though AD8031/AD8032 swing close both rails, AD8031 optimum distortion performance when signal common-mode level half between supplies when there about headroom each rail. distortion required single supply applications signals that swing close ground, emitter follower circuit used output.
50pF 49.9
AD8031 2N3904
AD8031 AD8032
VOUT
AD8032
2.49k
2.49k
49.9 49.9
VOUT
Figure Biquad Bandpass Filter Using AD8031/ AD8032
Figure Distortion Line Driver Single Supply Ground Referenced Signals
-14-
REV.
AD8031/AD8032
Figure shows AD8031 configured single supply gainof-2 line driver. With output driving back terminated line, overall gain from VOUT unity. addition minimizing reflections, back termination resistor protects transistor from damage cable short circuited. emitter follower, which inside feedback loop, ensures that output voltage from AD8031 stays about above ground. Using this circuit, very distortion attainable even when output signal swings within ground. circuit tested MHz. Figures show output signal swing frequency spectrum kHz. this frequency, output signal VOUT), which peak-to-peak swing 1.95 (SFDR dB). Figures show output signal swing frequency spectrum MHz. expected, there some degradation signal quality higher frequency. When output signal peak-to-peak swing 1.45 (swinging from (SFDR dB). This circuit could also used drive analog input single supply high speed whose input voltage range referenced ground (e.g., this case, back termination resistor necessary (assuming short physical distance from transistor ADC), emitter external transistor would connected directly input. available output voltage swing circuit would, therefore doubled.
1.5V
50mV
0.2V
200ns
0.5V
50mV
Figure Output Signal Swing Distortion Line Driver
+9dBm
Figure Output Signal Swing Distortion Line Driver
+7dBm
VERTICAL SCALE 10dB/Div
VERTICAL SCALE 10dB/Div START
START
STOP 5MHz
STOP 20MHz
Figure Distortion Line Driver
Figure Distortion Line Driver
REV.
-15-
AD8031/AD8032
OUTLINE DIMENSIONS
Dimensions shown inches (mm).
8-Lead Plastic (N-8)
0.39 (9.91)
8-Lead Plastic SOIC (SO-8)
0.1968 (5.00) 0.1890 (4.80)
0.31 (7.87)
0.25 (6.35) 0.30 (7.62)
0.1574 (4.00) 0.1497 (3.80)
0.2440 (6.20) 0.2284 (5.80)
0.165 ±0.01 (4.19 ±0.25) 0.125 (3.18) 0.018 ±0.003 0.10 0.033 (0.46 ±0.08) (2.54) (0.84)
0.035 ±0.01 (0.89 ±0.25) 0.18 ±0.03 (4.57 ±0.76) SEATING PLANE
0.0098 (0.25) 0.0040 (0.10)
0.0688 (1.75) 0.0532 (1.35)
0.0196 (0.50) 0.0099 (0.25)
0.011 ±0.003 (0.28 ±0.08)
SEATING PLANE
0.0500 0.0192 (0.49) (1.27) 0.0138 (0.35)
0.0098 (0.25) 0.0075 (0.19)
0.0500 (1.27) 0.0160 (0.41)
8-Lead SOIC (RM-8)
0.122 (3.10) 0.114 (2.90)
5-Lead Plastic Surface Mount (SOT-23) (RT-5)
0.1181 (3.00) 0.1102 (2.80)
0.122 (3.10) 0.114 (2.90)
0.199 (5.05) 0.187 (4.75)
0.0669 (1.70) 0.0590 (1.50)
0.1181 (3.00) 0.1024 (2.60)
0.0256 (0.65) 0.120 (3.05) 0.112 (2.84) 0.006 (0.15) 0.002 (0.05) SEATING PLANE 0.018 (0.46) 0.008 (0.20) 0.043 (1.09) 0.037 (0.94) 0.011 (0.28) 0.003 (0.08) 0.028 (0.71) 0.016 (0.41) 0.120 (3.05) 0.112 (2.84)
0.0374 (0.95) 0.0748 (1.90) 0.0512 (1.30) 0.0354 (0.90) 0.0059 (0.15) 0.0019 (0.05) 0.0197 (0.50) 0.0138 (0.35) 0.0571 (1.45) 0.0374 (0.95) SEATING PLANE
0.0079 (0.20) 0.0031 (0.08)
0.0217 (0.55) 0.0138 (0.35)
-16-
REV.
PRINTED U.S.A.
C2152b-0-9/99
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