HA-2547 September 1998 File Number 2862.3 100MHz, Quadrant,
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HA-2547
September 1998 File Number 2862.3
100MHz, Quadrant, Current Output, Analog Multiplier
HA-2547 monolithic, high speed, quadrant, analog multiplier constructed Harris' Dielectrically Isolated High Frequency Process. high frequency performance HA-2547 rivals best analog multipliers currently available including hybrids. single-ended current output HA-2547 100MHz signal bandwidth 22MHz control input bandwidth. High bandwidth distortion make this part ideal component video systems. suitability precision video applications demonstrated further multiplication error (1.6%), feedthrough (-50dB), differential inputs with bias currents (1.2µA). HA-2547 also well suited mixer circuits well applications sonar, radar, medical imaging equipment. current output HA-2547 allows achieve higher bandwidths than voltage output multipliers. internal feedback resistor provided give accurate current-tovoltage conversion trimmed give full scale output voltage ±5V. HA-2547 limited multiplication applications only; frequency doubling power detection also possible.
Features
Multiplication Error .1.6% Input Bias Currents. 1.2µA Signal Input Feedthrough 5MHz. -50dB Wide Signal Bandwidth 100MHz Wide Control Bandwidth. 22MHz
Applications
Military Avionics Missile Guidance Systems Medical Imaging Displays Video Mixers Sonar Processors Radar Signal Conditioning Voltage Controlled Amplifier Vector Generator
HA-2547, (CERDIP) VIEW
VREF VYIOB VYIOA VX16
Pinout
Part Number Information
PART NUMBER HA1-2547-5 HA1-2547-9 TEMP. RANGE (oC) PACKAGE CERDIP CERDIP PKG. F16.3 F16.3
VYV-
IOUT
Schematic
VBIAS VBIAS VOUT VREF
VYIOA VYIOB
CAUTION: These devices sensitive electrostatic discharge; follow proper Handling Procedures. Copyright Harris Corporation 1998
HA-2547
Absolute Maximum Ratings
Voltage Between Terminals. Differential Input Voltage Output Current
Thermal Information
Thermal Resistance (Typical, Note (oC/W) (oC/W) CERDIP Package. Maximum Junction Temperature 175oC Maximum Storage Temperature Range -65oC 150oC Maximum Lead Temperature (Soldering 10s) 300oC
Operating Conditions
Temperature Range HA-2547-9 -40oC 85oC HA-2547-5 75oC
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.
NOTE: measured with component mounted evaluation board free air.
Electrical Specifications
PARAMETER MULTIPLIER PERFORMANCE Multiplication Error (Note
VSUPPLY ±15V, (Pin Grounded, Unless Otherwise Specified. Connected Scale Factor TEST CONDITIONS TEMP. (oC) UNITS
Full
0.003 0.03
%/oC µV/oC
Multiplication Error Drift Scale Factor Error THD+N Output Offset Voltage Note
Full Full Full
Average Offset Voltage Drift SIGNAL INPUT, Input Offset Voltage
Full
Full
µV/oC
Average Offset Voltage Drift Input Bias Current
Full Full
Input Offset Current
Full
Input Differential Resistance Input Capacitance Small Signal Bandwidth (-3dB) (Note Feedthrough Differential Input Range Common Mode Range CMRR TRANSIENT RESPONSE Rise Time Propagation Delay Note Note Note
Full
HA-2547
Electrical Specifications
PARAMETER CONTROL INPUT, Input Offset Voltage Full Average Offset Voltage Drift Input Bias Current Full Full Input Offset Current Full Input Capacitance Input Differential Resistance Small Signal Bandwidth (-3dB) (Note Feedthrough Input Range (Note Common Mode Range CMRR TRANSIENT RESPONSE Rise Time Propagation Delay OUTPUT CHARACTERISTICS Full Scale Output Voltage Full Scale Output Current (Note Output Capacitance Output Resistance POWER SUPPLY PSRR NOTES: Error percent full scale, 50mV. 10kHz, 1VRMS ±5V, ±12V ±15V, Guaranteed sample test 100% tested. Output current tolerance ±20%. Scale Factor Applications Information. 5MHz, 200mVRMS. Relative full scale output. 5MHz, 200mVRMS, -0.5V. Relative full scale output. ±5V, Note Full Full ±5V, 2.5V Full ±6.25 Note Note Note Full µV/oC VSUPPLY ±15V, (Pin Grounded, Unless Otherwise Specified. Connected Scale Factor (Continued) TEST CONDITIONS TEMP. (oC) UNITS
HA-2547 Test Circuits Waveforms
-15V VOUT +15V
FIGURE TRANSIENT RESPONSE TEST CIRCUIT
100mV
100mV
-100mV
Horizontal Scale: 20ns/Div. TRANSIENT RESPONSE
Horizontal Scale: 50ns/Div. TRANSIENT RESPONSE
Application Information
Theory Operation
HA-2547 current output, quadrant multiplier with differential signal channel, VY-, differential control channel, VX-. Figure shows detailed functional block diagram HA-2547. differential voltages channels converted differential currents. These differential currents then multiplied circuit similar Gilbert Cell multiplier, producing differential current product. differential product currents then converted single-ended output current which typically 2mA, ±20% full scale ±5V). trimmed internal scaling resistor, designed convert output current accurate voltage grounding (pin 10). trimmed such that full scale output current voltage drop across will ±5.0V.
VVYIOA VYIOB MULTIPLIER CORE 1.67K IOUT 2.5K STABLE REFERENCE BIAS VREF
FIGURE
HA-2547
transfer equation HA-2547
where
multiplication error trimmed minimum full scale, ±5V. When ±5V, worst case multiplication error occurs when 0.8V (Refer typical performance curves).
-15V +15V -15V +15V
Scale Factor 2.5kV (Internal) Differential Inputs scale factor used maintain output multiplier within normal operating range ±5V. scale factor defined user optional external resistor, REXT, Gain Adjust pins: Gain Adjust Gain Adjust Gain Adjust scale factor determined follows: when shorted (1.2)(REXT), when REXT connected between (REXT (1.2)(REXT 1.667k), when REXT connected (REXT scale factor adjusted from should noted that adjustments scale factor will affect performance control channel, normal input operating range equal scale factor value. typical multiplier configuration shown Figure ideal transfer function this configuration shown below, illustrating quadrant operation:
when
VOUT
FIGURE
Operation Various Supply Voltages
HA-2547 will operate over range supply voltages, ±15V. supply voltages below ±12V will cause degradation electrical parameters.
Offset Adjustment
signal channel offset voltage nulled using potentiometer between VYIO Adjust pins connecting wiper Reducing signal channel offset voltage will reduce feedthrough improve multiplication error.
when
usually connected ground that when negative there signal output, i.e. quadrant operation. input negative going signal maybe grounded used input. terminal usually grounded allowing swing ±5V. normally used feedback resistor external provide accurate current-to-voltage conversion. scale factor normally connecting Therefore, transfer function becomes:
HA-2547 Typical Performance Curves
GAIN (dB) GAIN (dB) PHASE SHIFT (DEGREES) PHASE 100K FREQUENCY (Hz) 100M 200mVRMS GAIN
±15V, 25oC
100mVRMS -1V,
GAIN
PHASE 100K FREQUENCY (Hz) 100M
FIGURE FREQUENCY
FIGURE FREQUENCY
GAIN (dB)
200mVRMS GAIN (dB)
200mVRMS 0.5V,
-115 -135
100K
FREQUENCY (Hz)
100M
100K
FREQUENCY (Hz)
100M
FIGURE FEEDTHROUGH FREQUENCY
FIGURE FEEDTHROUGH FREQUENCY
GAIN (dB)
200mVRMS 0.5V 0.25V GAIN (dB)
100mVRMS -1V, 0.5V 0.25V
100K
FREQUENCY (Hz)
100M
100K
FREQUENCY (Hz)
100M
FIGURE VARIOUS FREQUENCY RESPONSES
FIGURE VARIOUS FREQUENCY RESPONSES
PHASE SHIFT (DEGREES)
HA-2547 Typical Performance Curves
PEAK OUTPUT VOLTAGE SWING (±V)
±15V, 25oC (Continued)
OFFSET VOLTAGE (mV)
VOUT
TEMPERATURE (oC)
TEMPERATURE (oC)
FIGURE OUTPUT VOLTAGE SWING TEMPERATURE
FIGURE OFFSET VOLTAGE TEMPERATURE
CURRENT (µA) CURRENT (µA) BIAS CURRENT BIAS CURRENT
OFFSET CURRENT
OFFSET CURRENT
-1.0
-2.0
TEMPERATURE (oC)
TEMPERATURE (oC)
FIGURE OFFSET/BIAS CURRENT TEMPERATURE
FIGURE OFFSET/BIAS CURRENT TEMPERATURE
CONTROL SIGNAL CMRR (dB) PSRR (dB)
+PSRR
-PSRR
TEMPERATURE (oC)
TEMPERATURE (oC)
FIGURE SIGNAL/CONTROL CMRR TEMPERATURE
FIGURE PSRR TEMPERATURE
HA-2547 Typical Performance Curves
±15V, 25oC (Continued)
2.05 2.04
SUPPLY CURRENT (mA)
2.03 SCALE FACTOR -ICC 2.02 2.01 2.00 1.99 1.98 1.97 1.96 1.95 TEMPERATURE (oC)
+ICC
TEMPERATURE (oC)
FIGURE TEMPERATURE
FIGURE SCALE FACTOR TEMPERATURE
ERROR
MULTIPLICATION ERROR
WORST CASE ERROR
TEMPERATURE (oC)
TEMPERATURE (oC)
FIGURE WORST CASE MULTIPLICATION ERROR TEMPERATURE
FIGURE MULTIPLICATION ERROR TEMPERATURE
MULTIPLICATION ERROR NOISE VOLTAGE (nV/Hz)
100K
VOLTAGE
FREQUENCY (Hz)
FIGURE MULTIPLICATION ERROR
FIGURE VOLTAGE NOISE DENSITY
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