30MHz, High Output Current Operational Transconductance Amplifier (OTA
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CA3094, CA3094A, CA3094B
30MHz, High Output Current Operational Transconductance Amplifier (OTA)
CA3094 differential input power control switch/amplifier with auxiliary circuit features ease programmability. example, error unbalance signal amplified CA3094 provide on-off signal proportional control output signal 100mA. This signal sufficient directly drive high current thyristors, relays, loads, power transistors. CA3094 generic characteristics CA3080 operational amplifier directly coupled integral Darlington power transistor capable sinking driving currents 100mA. gain differential input stage proportional amplifier bias current (IABC), permitting programmable variation integrated circuit sensitivity with either digital and/or analog programming signals. example, IABC 100µA, change input will change output from 100µA (typical). CA3094 intended operation especially useful timing circuits, automotive equipment, other applications where operation primary design requirement (see Figures Typical Applications text). CA3094A CA3094B like CA3094 intended operation 44V, respectively (single dual supply).
March 1997
Features
CA3094T, Operation CA3094AT, Operation CA3094BT, Operation Designed Single Dual Power Supply Programmable: Strobing, Gating, Squelching, Capabilities Deliver (Average) (Peak) External Load Switching Mode) High Power, Single Ended Class Amplifier will Deliver Power Output 0.6W (1.6W Device Dissipation) Total Harmonic Distortion (THD) 0.6W Class Operation 1.4% (Typ)
Applications
Error Signal Detector: Temperature Control with Thermistor Sensor; Speed Control Shunt Wound Motor Over Current, Over Voltage, Over Temperature Protectors Dual Tracking Power Supply with CA3085 Wide Frequency Range Oscillator Analog Timer Level Detector Alarm Systems Voltage Follower Ramp Voltage Generator High Power Comparator Ground Fault Interrupter (GFI) Circuits
Ordering Information
PART NUMBER (BRAND) CA3094T, CA3094E, CA3094M, (3094, TEMP. RANGE (oC) PACKAGE Metal PDIP SOIC PKG. T8.C E8.3 M8.15
Pinouts
CA3094 (PDIP, SOIC) VIEW
EXT. FREQUENCY COMPENSATION INHIBIT INPUT DIFFERENTIAL VOLTAGE INPUTS DUAL SUPPLY OPERATION) SINK OUTPUT (COLLECTOR) DRIVE OUTPUT (EMITTER) IABC CURRENT PROGRAMMABLE INPUT (STROBE AGC) DIFFERENTIAL VOLTAGE INPUTS DUAL SUPPLY OPERATION) IABC CURRENT PROGRAMMABLE INPUT (STROBE AGC) EXT. FREQUENCY COMPENSATION INHIBIT INPUT
CA3094 (METAL CAN) VIEW
SINK OUTPUT (COLLECTOR)
DRIVE OUTPUT (EMITTER)
NOTE: connected case.
CAUTION: These devices sensitive electrostatic discharge. Users should follow proper Handling Procedures. Copyright
Harris Corporation 1997
File Number
598.5
CA3094, CA3094A, CA3094B
Absolute Maximum Ratings
Supply Voltage (Between Terminals) CA3094 CA3094A. CA3094B. Differential Input Voltage (Terminals Note Input Voltage VInput Current (Terminals ±1mA Amplifier Bias Current (Terminal Average Output Current 100mA Peak Output Current. 300mA
Thermal Information
Thermal Resistance (Typical, Note (oC/W) (oC/W) PDIP Package SOIC Package Metal Package Maximum Junction Temperature (Metal Package). 175oC Maximum Junction Temperature (Plastic Package) 150oC Maximum Storage Temperature Range -65oC 150oC Maximum Lead Temperature (Soldering 10s) 300oC (SOIC Lead Tips Only)
Operating Conditions
Temperature Range -55oC 125oC
CAUTION: Stresses above those listed "Absolute Maximum Ratings" cause permanent damage device. This stress only rating operation device these other conditions above those indicated operational sections this specification implied.
NOTES: Exceeding this voltage rating will damage device unless peak input signal current (1mA) also exceeded. measured with component mounted evaluation board free air.
Electrical Specifications
PARAMETER INPUT PARAMETERS Input Offset Voltage
25oC Equipment Design. Single Supply 30V, Dual Supply VSUPPLY ±15V, IABC 100µA Unless Otherwise Specified SYMBOL TEST CONDITIONS 25oC 70oC UNITS
0.02 28.8 13.8 -14.5 0.68
0.50 0.70
µV/oC µV/V
Input Offset Voltage Change Input Offset Current
|VIO|
Change between IABC 100µA IABC 25oC 70oC 25oC 70oC IOUT
Input Bias Current
Device Dissipation Common Mode Rejection Ratio Common Mode Input Voltage Range
CMRR VICR
(High) (Low) -15V
Unity Gain Bandwidth Open Loop Bandwidth -3dB Point Total Harmonic Distortion (Class Operation) Amplifier Bias Voltage (Terminal Terminal Input Offset Voltage Temperature Coefficient Power Supply Rejection Noise Voltage Noise Current Differential Input Resistance Differential Input Capacitance
BWOL
7.5mA, 15V, IABC 500µA 7.5mA, 15V, IABC 500µA 220mW 600mW
VABC VIO/T VIO/V 10Hz, IABC 50µA 10Hz, IABC 50µA IABC 20µA 1MHz,
0.50
CA3094, CA3094A, CA3094B
Electrical Specifications
PARAMETER 25oC Equipment Design. Single Supply 30V, Dual Supply VSUPPLY ±15V, IABC 100µA Unless Otherwise Specified (Continued) SYMBOL TEST CONDITIONS UNITS
OUTPUT PARAMETERS (Differential Input Voltage Peak Output Voltage (Terminal Peak Output Voltage (Terminal Peak Output Voltage (Terminal Peak Output Voltage (Terminal With "ON" With "OFF" Positive Negative With "OFF" With "ON" Positive Negative VOM+ VOMVOM+ VOMVOM+ VOMVOM+ VOMVCE(SAT) 15V, -15V, 30V, 50mA, Terminal Grounded 30V, 50mA 1MHz, Remaining Terminals Tied Terminal 30V, 15V, -15V, -15V 30V, 29.95 14.95 16,000 0.01 -14.99 29.99 0.040 14.99 -14.96 0.17 100,000 0.05 -14.95 0.80
Collector-to-Emitter Saturation Voltage (Terminal Output Leakage Current (Terminal Terminal Composite Small Signal Current Transfer Ratio (Beta) (Q12 Q13) Output Capacitance Terminal Terminal TRANSFER PARAMETERS Voltage Gain
30V, IABC 100µA, VOUT 20V,
20,000 1650
100,000 2200 0.70
2750
V/µs V/µs V/µs
Forward Transconductance Terminal Slew Rate (Open Loop) Positive Slope Negative Slope
IABC 500µA,
Unity Gain (Non-Inverting Compensated)
IABC 500µA,
Schematic Diagram
EXTERNAL FREQUENCY COMPENSATION INHIBIT INPUT DIFFERENTIAL VOLTAGE INPUT DIFFERENTIAL VOLTAGE INPUT AMPLIFIER BIAS INPUT IABC "SOURCE" (DRIVE) OUTPUT "SINK" OUTPUT
INPUTS OUTPUT MODE "Source" "Sink" OUTPUT TERM NONINV
CA3094, CA3094A, CA3094B Operating Considerations
"Sink" Output (Terminal "Drive" Output (Terminal CA3094 inherently current power) limited. Therefore, load connected between Terminal Terminal Ground), important connect current limiting resistor between Terminal Terminal (V+) protect transistor under shorted load conditions. Similarly, load connected between Terminal Terminal (V+), current limiting resistor should connected between Terminal Terminal ground. circuit applications where emitter output transistor connected most negative potential system, recommended that current limiting resistor inserted between Terminal supply. Noise Measurement Circuit When using CA3094, audio amplifier circuits, frequently necessary consider noise performance device. Noise measurements made circuit shown Figure This circuit 30dB, non-inverting amplifier with emitter follower output phase compensation from Terminal ground. Source resistors (RS) noise noise measurements, respectively. These measurements made frequencies 10Hz, 100Hz 1kHz with measurement bandwidth. Typical values noise 10Hz 50µA IABC are:
18nV 1.8pA
Test Circuits
NOTES:
Input Offset Voltage: Power Supply Rejection Test: vary -2V; then vary +2V. Equations: Rejection -200 Rejection -200
CA3094
300k 9.9k
100pF EOUT
Power Supply Rejection: REJECTION Maximum Reading Step Step
FIGURE INPUT OFFSET VOLTAGE POWER SUPPLY REJECTION TEST CIRCUIT
RABC
CA3094 0.001µF 150k EOUT
300k
CA3094A
NOTES: PDISSIPATION (V+)(I)
-AMPS
NOTE:
FIGURE INPUT OFFSET CURRENT TEST CIRCUIT
FIGURE INPUT BIAS CURRENT TEST CIRCUIT
CA3094, CA3094A, CA3094B Test Circuits
(Continued)
VCMR 0.8V 27.2V 9.9k 100pF EOUT 4.7k
CA3094
NOTES: CMRR 2OUT 1OUT
Input Voltage Range CMRR 27V. CMRR (dB) 2OUT 1OUT
FIGURE COMMON MODE RANGE REJECTION RATIO TEST CIRCUIT
+15V +15V IABC 3.6k (NOTE) (NOTE) -15V -15V OUTPUT (RMS) OUTPUT IABC -15V +15V
CA3094A
CA3094A
IABC (µA)
CCOMP (pF)
NOTE: (1/F Noise Current Test). (1/F Noise Voltage Test).
560K
IABC (µA)
FIGURE NOISE TEST CIRCUIT
+15V IABC
FIGURE OPEN LOOP GAIN FREQUENCY TEST CIRCUIT
+15V
±10V EOUT 0.001µF -15V
CA3094A
CA3094A
EOUT
-15V
FIGURE OPEN LOOP SLEW RATE IABC TEST CIRCUIT
FIGURE SLEW RATE NON-INVERTING UNITY GAIN TEST CIRCUIT
CA3094, CA3094A, CA3094B Test Circuits
(Continued)
+15V
120VAC RLOAD
(NOTE COMMON -15V OUTPUT CA3094A
EOUT
CA3094A
NOTES: 0.5µF 1N914 0.51M min. 5.1M min. hrs. hrs. 1.5k 5.1k 1.5k
CLOSED LOOP GAIN (dB)
Time
Potentiometer required initial time permit device interconnecting. Time variation with temperature <0.3%/oC. FIGURE PHASE COMPENSATION TEST CIRCUIT FIGURE PRESETTABLE ANALOG TIMER
Application Information
additional application information, refer Application Note AN6048, "Some Applications Programmable Power/Switch Amplifier AN6077 Operational Transconductance Amplifier (OTA) with Power Capability". Design Considerations selection optimum amplifier bias current (IABC) depends Desired Sensitivity higher IABC, higher sensitivity, i.e., greater drive current capability output specific voltage change input. Required Input Resistance lower IABC, higher input resistance. desired sensitivity required input resistance known experimentally determined, anticipated equipment design sufficiently flexible tolerate wide range these parameters, recommended that equipment designer begin calculations with IABC 100µA, since CA3094 characterized this value amplifier bias current. CA3094 extremely versatile used wide variety applications.
CA3094, CA3094A, CA3094B Typical Applications
EOUT (NOTE) CA3094 EOUT (NOTE)
CA3094
Where EOUT
Where depends characteristics NOTE: single-ended output operation, CA3094 require pull pull down resistor. FIGURE 11A. INVERTING FIGURE 11B. NON-INVERTING MODE, FOLLOWER
FIGURE APPLICATION CA3094
VOLTAGE 2/3V+ VOLTAGE TERMINAL 1N914 220k RABC 220k CA3094 100k
Problem: calculate maximum value required switch 100mA output current comparator Given: 5µA, 3.6M -PULL 500nA IABC 100µA (from Figure determined drawing line Figure through IABC 100µA 500nA parallel typical 25oC curve.
EOUT
Then: 33nA IABC 180M 25°C 33nA 180M 120M 55°C
TIME DELAY (APPROX.)
Ratio 25oC -55oC given value IABC
FIGURE TIMER
0.01µF INPUT 1N914 12VDC 2.2M 220k EOUT
CA3094 0.5µF
RLOAD
negative going transient input (A), negative pulse will turn "on" CA3094, output will from high level. time constant determined CA3094 will return "off" state output will pulled RLOAD. This condition will independent interval when input returns high level.
FIGURE TIMER TRIGGERED EXTERNAL NEGATIVE PULSE
CA3094, CA3094A, CA3094B Typical Applications
+15V 10kMAX 2.7M 5VDC 0.01µF PAPER MYLAR5 TYPE 1N914 100k EOUT 1N914 CA3094 OUTPUT
(Continued)
CA3094
330k
EOUT 120s
NOTES: 1µF. Time Constant: 120. Pulse Width: K(C1/C).
CURRENT INPUT VOLTAGE INPUT
LINE
FIGURE FREE RUNNING PULSE GENERATOR
FIGURE CURRENT VOLTAGE CONTROLLED OSCILLATOR
100k 300k 100k 100k 560pF CA3094A -15V 4.3k CA3094A 1000pF 300k OUTPUT fOUT 5kHz
NOTE: 3.08R1, FIGURE DUAL SUPPLY ASTABLE MULTIVIBRATOR
FIGURE SINGLE SUPPLY ASTABLE MULTIVIBRATOR
Mylaris trademark E.I. Dupont Nemours.
CA3094, CA3094A, CA3094B Typical Applications
(Continued)
+15V 150k +15V 300k INPUT (NOTE INPUT OUTPUT 200k 200k 100k -15V OUTPUT
CA3094
CA3094A
100k 100k
NOTES: Upper Threshold
NOTES: Threshold Supply Lower Threshold FIGURE 18B. SINGLE SUPPLY
FIGURE 18A. DUAL SUPPLY
FIGURE COMPARATORS (THRESHOLD DETECTORS) DUAL SINGLE SUPPLY TYPES
TYPE D1201F TEMP. SENSOR 117V 60Hz 60Hz
1.5M
1N914
HEATER 330k TEMP. 1N914 CA3094 1.5k 0.01µF
50µF
SENSOR, INTERCHANGE POSITION SENSOR
NOTE: Resistors 1/2W.
FIGURE TEMPERATURE CONTROLLER
CA3094, CA3094A, CA3094B Typical Applications
INPUT (NOTE REF. 1.6V 0.01µF
(Continued)
NOTE +15V REG. OUTPUT
CA3085A VOLTAGE REG.
NOTES:
0.0056µF
Input Range output.
1.5k COMMON RETURN 200k
Input Range -16V -30V -15V output. IOUT ±100mA. Regulation: Line 0.075% Initial
0.03µF
5.1k CA3094A
Load 0.075% Initial from 50mA)
-15V REG. OUTPUT
INPUT (NOTE
FIGURE DUAL VOLTAGE TRACKING REGULATOR
ILOAD RTRIP 200mV RANGE (NOTE 0.02µF 0.1µF (NOTE 100k IABC 10µA 3.3M 20µA VOLTS
CIRCUIT TRIPS POSITIVE PEAKS WILL SWITCH WITHIN CYCLES VOLTAGE BETWEEN TERMINALS VOLTAGE BETWEEN TERMINALS (ADJUSTABLE WITH RTRIP) 60mV TYPICAL GROUND FAULT SIGNAL 60Hz
CA3094B CIRCUIT BREAKER CONTROL SOLENOID
NOTES: Differential current sensor provides 60mV signal unbalance (Trip) current. Resistors Watt, ±10%. selected point 200Hz. bypass. Offset adj. included RTRIP Input impedance from 800k.
0.001µF
With input signal Terminal (output) 36V.
FIGURE GROUND FAULT INTERRUPTER (GFI) WAVEFORMS PERTINENT GROUND FAULT DETECTOR
3-10
CA3094, CA3094A, CA3094B Typical Applications
TREBLE "BOOST" (CW) 0.12µF 1800 0.001µF 0.001µF 5600 15µF 2N6292 2N6292 V"CUT" (CCW) 0.01µF 4700µF
(Continued)
1N5391 120V 60Hz STANCOR P-8609 EQUIVALENT (120VAC 26.8VCT
INPUT VOLUME (NOTES CA3094B 0.2µF 0.02µF "BOOST" 100k (CW) BASS "CUT" (CCW) 0.47µF 0.47 LEAD TO-5 THERMAL COMPENSATION NETWORK 6.8pF 0.47 0.47 2N6107
4700
1.8M (NOTES
OPTIONAL THERMAL
COMPENSATION NETWORK
25µF
1N5391
JUMPER (NOTES
TYPICAL PERFORMANCE DATA AUDIO AMPLIFIER CIRCUIT Power Output load, Tone Control "Flat") Music THD, Regulated Supply) Continuous 0.2% IMD, 60Hz 2kHz Mixed Ratio, Unregulated Supply) Figure AN6048 Total Harmonic Distortion Unregulated Supply. 0.05% 12W, Unregulated Supply. 0.57% Voltage Gain 40dB Noise (Below Continuous Power Output) 83dB Input Resistance 250k Tone Control Range Figure AN6048 NOTES: standard input: Short 250k, 0.047µF; remove ceramic cartridge input: 0.0047µF, 2.5M, remove jumper from leave
FIGURE AUDIO AMPLIFIER CIRCUIT FEATURING TRUE COMPLEMENTARY SYMMETRY OUTPUT STAGE WITH CA3094 DRIVER STAGE
3-11
CA3094, CA3094A, CA3094B Typical Performance Curves
INPUT OFFSET VOLTAGE (mV) AMPLIFIER BIAS CURRENT (µA) 1000 0.01 AMPLIFIER BIAS CURRENT (µA) 1000 70oC 90oC 125oC 70oC 25oC -55oC 25oC -55oC +15V, -15V INPUT OFFSET CURRENT (nA) 125oC 90oC +15V, -15V
-55oC 25oC 125oC
FIGURE INPUT OFFSET VOLTAGE AMPLIFIER BIAS CURRENT (IABC, TERMINAL
FIGURE INPUT OFFSET CURRENT AMPLIFIER BIAS CURRENT (IABC, TERMINAL
+15V, -15V
25oC
INPUT BIAS CURRENT (nA)
125oC 25oC -55oC 0.88µA
DEVICE DISSIPATION (µW)
+15V, -15V +6V, +3V,
1000
AMPLIFIER BIAS CURRENT (µA)
AMPLIFIER BIAS CURRENT (µA)
1000
FIGURE INPUT BIAS CURRENT AMPLIFIER BIAS CURRENT (IABC, TERMINAL
FIGURE DEVICE DISSIPATION AMPLIFIER BIAS CURRENT (IABC, TERMINAL
AMPLIFIER SUPPLY CURRENT (µA)
+15V, -15V
15.0 COMMON MODE INPUT VOLTAGE 125oC 25oC -55oC 14.5 14.0 13.5 13.0 -13.0 -13.5 -14.0 -14.5
+15V, -15V 25oC V+CMR
125oC
25oC -55oC 1000
V-CMR
-15.0
AMPLIFIER BIAS CURRENT (µA)
AMPLIFIER BIAS CURRENT (µA)
1000
FIGURE AMPLIFIER SUPPLY CURRENT AMPLIFIER BIAS CURRENT (IABC, TERMINAL
FIGURE COMMON MODE INPUT VOLTAGE AMPLIFIER BIAS CURRENT (IABC, TERMINAL
3-12
CA3094, CA3094A, CA3094B Typical Performance Curves
NOISE VOLTAGE (nV/Hz) 500µA 50µA IABC +15V, -15V 25oC TEST CIRCUIT, FIGURE
(Continued)
+15V, -15V 25oC TEST CIRCUIT, FIGURE
NOISE CURRENT (pA/Hz)
IABC 500µA
50µA
FREQUENCY (Hz)
FREQUENCY (Hz)
FIGURE NOISE VOLTAGE FREQUENCY
FIGURE NOISE CURRENT FREQUENCY
10000
1000
COMPOSITE BETA (Q12, Q13)
FORCED BETA 25oC
1000
20V, 25oC
COLLECTOR-TO-EMITTER SATURATION VOLTAGE (mV)
COLLECTOR CURRENT (mA) 1000
COLLECTOR CURRENT (mA) 1000
FIGURE COLLECTOR EMITTER SATURATION VOLTAGE COLLECTOR CURRENT OUTPUT TRANSISTOR (Q13)
OPEN LOOP VOLTAGE GAIN (dB) FREQUENCY (Hz) +15V, -15V, (TERMINAL V-), 25oC TEST CIRCUIT, FIGURE PHASE ANGLE (IABC 500µA) -100 -150 -200 50µA PHASE ANGLE (DEGREES) IABC 500µA
FIGURE COMPOSITE BETA COLLECTOR CURRENT DARLINGTON CONNECTED OUTPUT TRANSISTORS (Q12, Q13)
FORWARD TRANSCONDUCTANCE (µS) +15V, -15V
-55oC 25oC 125oC
AMPLIFIER BIAS CURRENT (µA)
1000
FIGURE OPEN LOOP VOLTAGE GAIN FREQUENCY
FIGURE FORWARD TRANSCONDUCTANCE AMPLIFIER BIAS CURRENT
3-13
CA3094, CA3094A, CA3094B Typical Performance Curves
+15V, -15V, 25oC TEST CIRCUIT, FIGURE
(Continued)
+15V, -15V, IABC 500µA, 25oC TEST CIRCUIT, FIGURE
SLEW RATE (V/µs)
SLEW RATE (V/µs) 1000
AMPLIFIER BIAS CURRENT (µA)
CLOSED LOOP VOLTAGE GAIN (dB)
FIGURE SLEW RATE AMPLIFIER BIAS CURRENT
FIGURE SLEW RATE CLOSED LOOP VOLTAGE GAIN
PHASE COMPENSATION CAPACITANCE (pF)
1000
1000
CLOSED LOOP VOLTAGE GAIN (dB)
FIGURE PHASE COMPENSATION CAPACITANCE RESISTANCE CLOSED LOOP VOLTAGE GAIN
Harris Semiconductor products manufactured, assembled tested under ISO9000 quality systems certification.
Harris Semiconductor products sold description only. Harris Semiconductor reserves right make changes circuit design and/or specifications time without notice. Accordingly, reader cautioned verify that data sheets current before placing orders. Information furnished Harris believed accurate reliable. However, responsibility assumed Harris subsidiaries use; infringements patents other rights third parties which result from use. license granted implication otherwise under patent patent rights Harris subsidiaries.
Sales Office Headquarters
general information regarding Harris Semiconductor products, call 1-800-4-HARRIS NORTH AMERICA Harris Semiconductor 883, Mail Stop 53-210 Melbourne, 32902 TEL: 1-800-442-7747 (407) 729-4984 FAX: (407) 729-5321 EUROPE Harris Semiconductor Mercure Center 100, Fusee 1130 Brussels, Belgium TEL: (32) 2.724.2111 FAX: (32) 2.724.22.05 ASIA Harris Semiconductor Ltd. Tannery Road Cencon #09-01 Singapore 1334 TEL: (65) 748-4200 FAX: (65) 748-0400
3-14
PHASE COMPENSATION RESISTANCE
+15V, -15V, IABC 500mA, 25oC 100mV OUTPUT SIGNAL WITH OVERSHOOT PHASE COMPENSATION TEST CIRCUIT, FIGURE
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