CA3028A, CA3028B, CA3053 Differential/Cascode Amplifiers for Commercial and Industrial Equipment from DC to 120MHz

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1 November 99 SEMICONDUCTOR CAA, CAB, CA Differential/Cascode Amplifiers for Commercial and Industrial Equipment from DC to MHz Features Controlled for Input Offset Voltage, Input Offset Current and Input Bias Current (CA Series Only) Balanced Differential Amplifier Configuration with Controlled Constant Current Source Single-Ended and Dual-Ended Operation Applications RF and IF Amplifiers (Differential or Cascode) DC, Audio and Sense Amplifiers Converter in the Commercial FM Band Oscillator Mixer Limiter Related Literature - Application Note AN Application of the CA Integrated Circuit Amplifier in the HF and VHF Ranges. This note covers characteristics of different operating modes, noise performance, mixer, limiter, and amplifier design considerations Description The CAA and CAB are differential/cascode amplifiers designed for use in communications and industrial equipment operating at frequencies from DC to MHz. The CAB is like the CAA but is capable of premium performance particularly in critical DC and differential amplifier applications requiring tight controls for input offset voltage, input offset current, and input bias current. The CA is similar to the CAA and CAB but is recommended for IF amplifier applications. Ordering Information PART NUMBER (BRAND) TEMP. RANGE ( o C) PKG. NO. PACKAGE CAA - to Pin Metal Can T.C CAAE - to Ld PDIP E. CAAM (A) CAAM9 (A) - to Ld SOIC M. - to Ld SOIC Tape and Reel M. CAB - to Pin Metal Can T.C CABE - to Ld PDIP E. CABM - to Ld SOIC M. (B) CA - to Pin Metal Can T.C CAE - to Ld PDIP E. Pinouts CAA/B, CA (METAL CAN) TOP VIEW CAA/B, (PDIP, SOIC) CA (PDIP) TOP VIEW Schematic Diagram (Terminal Numbers Apply to All Packages) + R kω Q Q Q R.kΩ R Ω SUBSTRATE AND CASE CAUTION: These devices are sensitive to electrostatic discharge. Users should follow proper IC Handling Procedures. Copyright Harris Corporation 99 - File Number.

2 CAA, CAB, CA Operating Conditions Thermal Information Temperature Range o C to o C Thermal Resistance (Typical, Note ) θ JA ( o C/W) θ JC ( o C/W) Metal Can Package PDIP Package N/A SOIC Package N/A Maximum Junction Temperature (Metal Can Package) o C Maximum Junction Temperature (Plastic Package) o C Maximum Storage Temperature Range o C to o C Maximum Lead Temperature (Soldering s) o C (SOIC - Lead Tips Only) CAUTION: Stresses above those listed in Absolute Maximum Ratings may cause permanent damage to the device. This is a stress only rating and operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. NOTE:. θ JA is measured with the component mounted on an evaluation PC board in free air. Absolute Maximum Voltage Ratings T A = o C The following chart gives the range of voltages which can be applied to the terminals listed horizontally with respect to the terminals listed vertically. For example, the voltage range of the horizontal Terminal with respect to Terminal is -V to +V. TERM NO. (Note ) to - (Note ) to - (Note ) to - (Note ) + to - + to - + to (Note ) + to + to (Note ) Absolute Maximum Current Ratings TERM NO. + to - Note Note + to (Note ) + to (Note ) Note + to (Note ) + to (Note ) + to (Note ) Note Note Note Note + to Note Note (Note ) Note Note Note + to (Note ) NOTES:. Terminal No. is connected to the substrate and case.. Voltages are not normally applied between these terminals. Voltages appearing between these terminals will be safe, if the specified voltage limits between all other terminals are not exceeded.. Limit is -V for CA.. Limit is +V for CA.. Limit is +V for CA.. Limit is +V for CAA and +V for CA. I IN ma I OUT ma Electrical Specifications T A = o C CAA CAB CA PARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX UNIT DC CHARACTERISTICS Input Offset Voltage V IO = V, V EE = -V mv (Figures, ) = V, V EE = -V mv Input Offset Current I IO = V, V EE = -V µa (Figures, ) = V, V EE = -V µa Input Bias Current I I = V, V EE = -V µa (Figures,,, ) = V, V EE = -V µa = 9V µa = V µa -

3 CAA, CAB, CA Electrical Specifications T A = o C (Continued) PARAMETER SYMBOL TEST CONDITIONS Quiescent Operating Current (Figures,,,, 9) AGC Bias Current (Into Constant Current Source Terminal ) (Figures, ) Input Current (Terminal ) I, I = V, V EE = -V ma = V, V EE = -V ma = 9V ma = V ma I = V, V AGC = 9V ma = V, V AGC = V ma = 9V ma = V ma I = V, V EE = -V ma = V, V EE = -V ma Power Dissipation P T = V, V EE = -V mw (Figures,, ) = V, V EE = -V mw = 9V mw = V mw DYNAMIC CHARACTERISTICS Power Gain (Figures, G P f = MHz Cascode db,,,, ) = 9V Diff. Amp db f =.MHz Cascode db (Note ) = 9V Diff. Amp. (Note ) db Noise Figure (Figures,,,,, ) Input Admittance (Figures, ) Reverse Transfer Admittance (Figures 9, ) Forward Transfer Admittance (Figures, ) Output Admittance (Figures, ) Output Power (Untuned) (Figures, ) AGC Range (Maximum Power Gain to Full Cutoff) (Figures 9, ) Voltage Gain (Figures,,, ) Differential Voltage Gain at f = khz (Figure ) NF Y Y Y Y P O AGC A A f = MHz, = 9V f =.MHz, = 9V f =.MHz, = 9V f =.MHz, = 9V f =.MHz, = 9V f =.MHz, = 9V f =.MHz, = 9V f =.MHz, = 9V, R L = kω Cascode db Diff. Amp db Cascode -. + j. Diff. Amp j. Cascode -. - j Diff. Amp j. Cascode j Diff. Amp j. Cascode - + j. Diff. Amp j. Diff. Amp., Ω Input- Output = V, V EE = -V, R L = kω = V, V EE = -V, R L =.kω CAA CAB CA MIN TYP MAX MIN TYP MAX MIN TYP MAX j j j j j j j j j j j j j j j j µw Diff. Amp db UNIT Cascode db Diff. Amp db db db -

4 CAA, CAB, CA Electrical Specifications T A = o C (Continued) PARAMETER SYMBOL TEST CONDITIONS Max Peak-to-Peak Output Voltage at f = khz (Figure ) Bandwidth at -db Point (Figure ) Common Mode Input Voltage Range (Figure ) Common Mode Rejection Ratio (Figure ) Input Impedance at f = khz Peak-to-Peak Output Current NOTE:. Does not apply to CA. V O (P-P) BW = V, V EE = -V, R L = kω = V, V EE = -V, R L =.kω = V, V EE = -V, R L = kω = V, V EE = -V, R L =.kω V CMR = V, V EE = -V to -. = V, V EE = -V to V P-P V P-P MHz MHz V V CMRR = V, V EE = -V db = V, V EE = -V db Z IN = V, V EE = -V kω = V, V EE = -V kω I P-P f =.MHz, e IN = mv, Diff. Amp. CAA CAB CA MIN TYP MAX MIN TYP MAX MIN TYP MAX UNIT = 9V ma = V ma Test Circuits V - Ω.Ω + R.Ω Ω Ω NOTE 9 V IO NOTE µf.ω.ω DC VTVM kω kω V OUT DC DIFF. VOLTMETER FLUKE TYPE OR EQUIV. µf I I I I + I I µf µf V EE V EE NOTES: 9. Adjust R for V OUT = V ±.V.. Record Input Offset Voltage. FIGURE. INPUT OFFSET VOLTAGE TEST CIRCUIT FOR CAB NOTE: Power Dissipation = I V EE + ( I + I ). FIGURE. INPUT OFFSET CURRENT, INPUT BIAS CURRENT, POWER DISSIPATION, AND QUIESCENT OPERATING CURRENT TEST CIRCUIT FOR CAA AND CAB -9

5 CAA, CAB, CA Test Circuits (Continued) kω I I I I kω I CA I I kω kω kω NOTE: Power Dissipation = I. FIGURE. INPUT BIAS CURRENT, POWER DISSIPATION AND QUIESCENT OPERATING CURRENT TEST CIRCUIT FOR CA FIGURE. AGC BIAS CURRENT TEST CIRCUIT (DIFFERENTIAL AMPLIFIER CONFIGURATION) FOR CAA AND CAB C Ω SIGNAL SOURCE (NOTE ) OR NOISE DIODE (NOTE ) pf L.µF.µF kω kω L C. µf Ω RF VOLTMETER (NOTE ) OR NOISE AMP (NOTE ) C Ω SIGNAL SOURCE (NOTE ) OR NOISE DIODE (NOTE ) L.µF kω kω L C Ω RF VOLTMETER (NOTE OR NOISE AMP (NOTE ) f (MHz) C C L L NOTES:. For Power Gain Test.. For Noise Figure Test...MHz Power Gain Test Only. FIGURE. POWER GAIN AND NOISE FIGURE TEST CIRCUIT (CASCODE CONFIGURATION) FOR CAA, CAB AND CA (NOTE ) f (MHz) C C L L NOTES:. For Power Gain Test.. For Noise Figure Test...MHz Power Gain Test Only. FIGURE. POWER GAIN AND NOISE FIGURE TEST CIRCUIT ( AND TERMINAL CONNECTED TO VCC) FOR CAA, CAB AND CA (NOTE ) -

6 CAA, CAB, CA Test Circuits (Continued) kω C kω L Ω SIGNAL SOURCE (NOTE ) OR NOISE DIODE (NOTE ) L.µF kω C Ω RF VOLTMETER (NOTE ) OR NOISE AMP (NOTE ) kω f (MHz) C C L L NOTES:. For Power Gain Test.. For Noise Figure Test. FIGURE. POWER GAIN AND NOISE FIGURE TEST CIRCUIT () FOR CAA AND CAB. µf INPUT kω.µf Ω FIGURE. OUTPUT POWER TEST CIRCUIT FOR CAA AND CAB. µf Ω OUTPUT.µF kω Ω SIGNAL SOURCE C L kω L C Ω RF VOLTMETER kω LOAD Ω f (MHz).µF C C kω L L INPUT Ω.µF.µF.µF kω kω OUTPUT.µF FIGURE 9. AGC RANGE TEST CIRCUIT (DIFFERENTIAL AMPLIFIER) FOR CAA AND CAB FIGURE. TRANSFER CHARACTERISTIC (VOLTAGE GAIN) TEST CIRCUIT (.MHz) CASCODE CONFIGURATION FOR CAA, CAB AND CA -

7 CAA, CAB, CA Test Circuits (Continued) INPUT Ω µh.µf FIGURE. TRANSFER CHARACTERISTIC (VOLTAGE GAIN) TEST CIRCUIT (.MHz) DIFFERENTIAL AMPLIFIER CONFIGURATION FOR CAA, CAB AND CA.µF kω LOAD kω kω Ω OUTPUT.µF µf INPUT SIGNAL f = khz µf V IN = mv (RMS) R (NOTE) Ω NOTE: For R =.kω: = V, V EE = -V For R =.kω: = V, V EE = -V. FIGURE. DIFFERENTIAL VOLTAGE GAIN, MAXIMUM PEAK- TO-PEAK OUTPUT VOLTAGE AND BANDWIDTH TEST CIRCUIT FOR CAB R OSCILLOSCOPE (NOTE) WITH HIGH GAIN DIFF. INPUT (TEKTRONIX TYPE V,, OR DIFF WITH TYPE D (RMS) PLUG-IN TEKTRONIX TYPE OR EQUIVALENT) V EE µf µf INPUT SIGNAL f = khz Ω S µf kω kω OSCILLOSCOPE WITH HIGH GAIN DIFF. INPUT (TEKTRONIX TYPE,, OR V DIFF WITH TYPE D (RMS) PLUG-IN TEKTRONIX TYPE OR EQUIVALENT) V IN =.V (RMS) µf V EE V X RANGE OF COMMON MODE REJECTION NOTES: 9. For CMR test: S to GND.. For Input Common Mode Voltage Range Test: S to V X.. ( A) ( ) (.) Common Mode Rejection Ratio = log V DIFF ( RMS) A = Single-Ended Voltage Gain. FIGURE. COMMON MODE REJECTION RATIO AND COMMON MODE INPUT VOLTAGE RANGE TEST CIRCUIT FOR CAB -

8 Typical Performance Curves CAA, CAB, CA INPUT OFFSET VOLTAGE (mv), INPUT OFFSET CURRENT (µa).... POSITIVE DC SUPPLY VOLTS ( ) NEGATIVE DC SUPPLY VOLTS (V EE ) = +V V EE = -V OFFSET CURRENT = +V V EE = -V INPUT BIAS CURRENT (µa) POSITIVE DC SUPPLY VOLTS ( ) NEGATIVE DC SUPPLY VOLTS (V EE ) = +V V EE = -V = +V V EE = -V TEMPERATURE ( o C) FIGURE. INPUT OFFSET VOLTAGE AND INPUT OFFSET CURRENT FOR CAB vs TEMPERATURE TEMPERATURE ( o C) FIGURE. INPUT BIAS CURRENT vs TEMPERATURE FOR CAA AND CAB INPUT BIAS CURRENT (µa) POSITIVE DC SUPPLY VOLTS ( ) = +9V = +V TEMPERATURE ( o C) FIGURE. INPUT BIAS CURRENT vs TEMPERATURE FOR CA QUIESCENT OPERATING CURRENT (ma).. V EE = -V V EE = -9V TEMPERATURE ( o C) FIGURE. QUIESCENT OPERATING CURRENT vs TEMPERATURE FOR CAA AND CAB QUIESCENT OPERATING CURRENT (ma).. = +V = +9V TEMPERATURE ( o C) FIGURE. QUIESCENT OPERATING CURRENT vs TEMPERATURE FOR CA OPERATING CURRENT, I OR I (ma) = V DC EMITTER SUPPLY (V) FIGURE 9. OPERATING CURRENT vs V EE VOLTAGE FOR CAA AND CAB - -

9 CAA, CAB, CA Typical Performance Curves (Continued) AGC BIAS CURRENT (ma) T A = o C AGC BIAS, TERMINAL NO. (V) TOTAL POWER DISSIPATION, ±V (mw) = +V V EE = -V = +V V EE = -V - - TEMPERATURE ( o C) TOTAL POWER DISSIPATION, ±V (mw) FIGURE. AGC BIAS CURRENT vs BIAS VOLTAGE (TERMINAL ) FOR CAA AND CAB FIGURE. POWER DISSIPATION vs TEMPERATURE FOR CAA AND CAB CASCODE CONFIGURATION T A = o C CASCODE CONFIGURATION T A = o C, f = MHz = +V POWER GAIN (db) = +9V NOISE FIGURE (db) DC COLLECTOR SUPPLY VOLTAGE (V) FIGURE. POWER GAIN vs FREQUENCY (CASCODE CONFIGURATION) FOR CAA AND CAB FIGURE. MHz NOISE FIGURE vs COLLECTOR SUPPLY VOLTAGE (CASCODE CONFIGURATION) FOR CAA AND CAB T A = o C T A = o C, f = MHz POWER GAIN (db) = +V = +9V NOISE FIGURE (db) DC COLLECTOR SUPPLY VOLTAGE (V) FIGURE. POWER GAIN vs FREQUENCY (DIFFERENTIAL AMPLIFIER CONFIGURATION) FOR CAA AND CAB FIGURE. MHz NOISE FIGURE vs COLLECTOR SUPPLY VOLTAGE (DIFFERENTIAL AMPLIFIER CONFIGURATION) FOR CAA AND CAB -

10 CAA, CAB, CA Typical Performance Curves (Continued) NOISE FIGURE (db) OR POWER GAIN (db) T A = o C, = +9V, f = MHz NOISE FIGURE POWER GAIN 9 POSITIVE DC BIAS VOLTAGE (V) INPUT CONDUCTANCE (g ) OR SUSCEPTANCE (b ) (ms) CASCODE CONFIGURATION, T A = o C I C(STAGE) =.ma, = +9V b g FIGURE. MHz NOISE FIGURE AND POWER GAIN vs BASE-TO-EMITTER BIAS VOLTAGE (TERMINAL ) FOR CAA AND CAB FIGURE. INPUT ADMITTANCE (Y ) vs FREQUENCY (CASCODE CONFIGURATION) INPUT CONDUCTANCE (g ) OR SUSCEPTANCE (b ) (ms) T A = o C, = +9V I C OF EACH TRANSISTOR =.ma b g REVERSE TRANSFER CONDUCTANCE (g ) OR SUSCEPTANCE (b ) (µs) CASCODE CONFIGURATION, T A = o C I C(STAGE) =.ma, = +9V g b - FIGURE. INPUT ADMITTANCE (Y ) vs FREQUENCY () FIGURE 9. REVERSE TRANSADMITTANCE (Y ) vs FREQUENCY (CASCODE CONFIGURATION) REVERSE TRANSFER CONDUCTANCE (g ) OR SUSCEPTANCE (b ) (ms) T A = o C, = +9V I C OF EACH TRANSISTOR =.ma g b FORWARD TRANSFER CONDUCTANCE (g ) OR SUSCEPTANCE (b ) (ms) CASCODE CONFIGURATION, T A = o C I C(STAGE) =.ma, = +9V g - b FIGURE. REVERSE TRANSADMITTANCE (Y ) vs FREQUENCY (DIFFERENTIAL AMPLIFIER CONFIGURATION) FIGURE. FORWARD TRANSADMITTANCE (Y ) vs FREQUENCY (CASCODE CONFIGURATION) -

11 CAA, CAB, CA Typical Performance Curves (Continued) FORWARD TRANSFER CONDUCTANCE (g ) OR SUSCEPTANCE (b ) (ms) T A = o C, = +9V I C OF EACH TRANSISTOR =.ma b g - OUTPUT CONDUCTANCE (g ) (ms) CASCODE CONFIGURATION, T A = o C I C(STAGE) =.ma, = +9V b g OUTPUT SUSCEPTANCE (b ) (ms) FIGURE. FORWARD TRANSADMITTANCE (Y ) vs FREQUENCY (DIFFERENTIAL AMPLIFIER CONFIGURATION) FIGURE. OUTPUT ADMITTANCE (Y ) vs FREQUENCY (CASCODE CONFIGURATION) OUTPUT CONDUCTANCE (g ) (ms), T A = o C I C OF EACH TRANSISTOR =.ma, = +9V. b.... g.... OUTPUT SUSCEPTANCE (b ) (ms) OUTPUT POWER (µw) T A = o C, CONSTANT POWER INPUT = µw = +9V = +V FIGURE. OUTPUT ADMITTANCE (Y ) vs FREQUENCY () FIGURE. OUTPUT POWER vs FREQUENCY - Ω INPUT AND Ω OUTPUT (DIFFERENTIAL AMPLIFIER CONFIGURATION) FOR CAA AND CAB T A = o C, = +9V CASCODE CONFIGURATION T A = o C, f =.MHz POWER GAIN (db) - MHz f =.MHz OUTPUT VOLTAGE (V) = +V = +9V - 9 DC BIAS VOLTAGE ON TERMINAL NO. (V)... INPUT VOLTAGE (V) FIGURE. AGC CHARACTERISTICS FOR CAA AND CAB FIGURE. TRANSFER CHARACTERISTICS (CASCODE CONFIGURATION) -

12 CAA, CAB, CA Typical Performance Curves (Continued) OUTPUT VOLTAGE (V)..... T A = o C, f =.MHz = +V = +9V... INPUT VOLTAGE (V). FIGURE. TRANSFER CHARACTERISTICS () Glossary of Terms AGC Bias Current The current drawn by the device from the AGC voltage source, at maximum AGC voltage. AGC Range The total change in voltage gain (from maximum gain to complete cutoff) which may be achieved by application of the specified range of dc voltage to the AGC input terminal of the device. Common Mode Rejection Ratio The ratio of the full differential voltage gain to the common mode voltage gain. Power Dissipation The total power drain of the device with no signal applied and no external load current. Input Bias Current The average value (one half the sum) of the currents at the two input terminals when the quiescent operating voltages at the two output terminals are equal. Input Offset Current The difference in the currents at the two input terminals when the quiescent operating voltages at the two output terminals are equal. Input Offset Voltage The difference in the DC voltages which must be applied to the input terminals to obtain equal quiescent operating voltages (zero output offset voltage) at the output terminals. Noise Figure The ratio of the total noise power of the device and a resistive signal source to the noise power of the signal source alone, the signal source representing a generator of zero impedance in series with the source resistance. Power Gain The ratio of the signal power developed at the output of the device to the signal power applied to the input, expressed in db. Quiescent Operating Current The average (DC) value of the current in either output terminal. Voltage Gain The ratio of the change in output voltage at either output terminal with respect to ground, to a change in input voltage at either input terminal with respect to ground, with the other input terminal at AC ground. -

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