4558 Dual High-Gain Operational Amplifier GENERAL DESCRIPTION DESIGN FEATURES The 4558 integrated circuit is a dual high gain operational @ 2.5 MHz Unity Gain Bandwidth Guaranteed amplifier internally compensated and constructed on a single Supply Voltage 22V for RM4558 and +15V for RC4558 silicon chip using the planar epitaxial process. @ Short-Circuit Protection Combining the features of the 741 with the close parameter @ No Frequency Compensation Required matching and tracking of a dual device on a monolithic chip @ No Latch-Up , ; results in unique performance characteristics. Excellent chan- Large Common-Mode and Differential Voltage Ranges nel separation allows the use of the dual device in single 741 @ Low Power Consumption operational amplifier applications providing the highest pos- @ Parameter Tracking Over Temperature Range sible packaging density. It is especially well suited for appli- @ Gain and Phase Match Between Amplifiers cations in differential-in, differential-out as well as in potentio- metric amplifiers and where gain and phase matched channels are mandatory. SCHEMATIC DIAGRAM (1/2 Shown) vo i K EY OUTPUT INPUTS o_ + LP Lo I CONNECTION INFORMATION TE (TO-99) DE and NB Metal Can Package .,Dual In-line Packages (Top View) (Top View) PIN FUNCTION e 1 A OUTPUT C4 1 8 ms) 2 A -INPUT 3 A +INPUT Ch | av 5 B +INPUT {J 73 / 6 r~) 6 B -INPUT 7 B OUTPUT [ 8 vt 4 5 Order Part Nos.: Order Part Nos.: RC4558NB, RV4558NB8 RC4558T, RM4558T RC4558DE, RV4558DE RM4558DE 1-100Dual High-Gain Operational Amplifier 4558 ABSOLUTE MAXIMUM RATINGS Supply Voltage ... 2.0.2.0... 020008] RM4558: +22V Operating Temperature Range .. RM4558: -550C to +125C RC4558: +18V RV4558: -40C to +859C Internal Power Dissipation (Note 1)... 2.2.00... 500mWw RC4558: OC to +709C Differential Input Voltage ..........-..0.0200. +30V. Lead Temperature (Soldering, 60s) ............ 300C Input Voltage (Note 2) 2.2.2.0. 2k ee eee +15V Output Short-Circuit Duration (Note 3) .......- Indefinite Storage Temperature Range .......... -659C to +1500C ELECTRICAL CHARACTERISTICS (Vcc = 15V, Ta = 25C unless otherwise specified) RM4558 RV/RC4558 PARAMETER CONDITIONS MIN TYP T MAX MIN TYP MAX UNITS Input Offset Voltage Rs < 10kQ2 1.0 5.0 2.0 6.0 mV Input Offset Current 5.0 200 30 200 nA Input Bias Current . 40 500 200 500 nA Input Resistance 0.3 1.0 0.3 1.0 Ma -Si i > Large-Signal Voltage Gain Jit 22 | | 50,000 | 300,000 20,000 | 300,000 out ~ Output Voltage Swing Ry 2 10kQ +42 +14 +12 14 Vv Ry = 2kQ +10 +13 10 +13 Vv Input Voltage Range +12 +13 412 +13 Vv Common Mode Rejection Ratio Rs < 10kQ 70 100 70 100 dB Supply Voltage Rejection Ratio Rs <10kQ2 10 150 10 | 150 uVviV Power Consumption (All Amplifiers) RL =e 100 170 100 170 mW Transient Response (unity gain} VIN = 20mV Rp = 2kQ , CL < 100pF Risetime 0.3 0.3 US Overshoot 15.0 15.0 % Slew Rate (unity gain) Ry 2 2kQ 0.5 0.5 V/us Channel Separation (Gain = 100) f= 10kHz Rg = 1k9) 90 90 1B Unity Gain Bandwidth (Gain = 1) 2.5 3.0 2.0 3.0 MHz | The following specifications apply for -55C < Ta < +1259C for RM4558; 09C < Ta < +70C for RC4558; -409C < Ta < +859C for RV4558 Input Offset Voltage Rs 10k2 6.0 75 mv Input Offset Current 500 300/500* nA Input Bias Current 1500 800/1500! nA Large-Signal Voltage Gain vit 2 ue 25,000 15,000 out > + Output Voltage Swing RL 2 2kQ +10 | +10 Vv Power Consumption Vs = 415V Ta = +1250C 90 150 90 150 mw Ta = -550C oe 120 200 120 = "| MATCHING CHARACTERISTICS (Vcc = 15V, Ta = 25C unless otherwise specified) RM4558 RC4558 | PARAMETER CONDITIONS TYP Tye UNITS Voltage Gain Ru 2 2kQ +.5 +1.0 dB Input Bias Current +15 215 nA Input Offset Current 47.5 47.5 nA input Offset Voltage Rs = 10k02 +4 +.2 mV NOTE 1: Rating applies for case temperatures to 125C; derate linearly a1 6.5mW/C for ambient temperatures above +750C for RM4558. NOTE 2: For supply voltages less than 15V, the absolute maximum input voitage is equal to the supply voltage. NOTE 3: Short circuit may be to ground on one amp only. Rating applies to +125C case temperature or +75C ambient temperature for RC4558 and to +85C ambient temperature for RV4558. _| 14014558 Dual High-Gain Operational Amplifier TYPICAL ELECTRICAL DATA Input Bias Current as a inpui Offset Current as a Common Mode Range as a Function of Ambient Temperature Function of Ambient Temperature Function of Supply Voltage 2 ~ 16 Ta 2b = 2 20 g 10 . 3 Fe 5 3 i S =z 3 z = 16 z = 2 ~ 2 2 5 8 4 FF ta : a = 5 5 =, & gz 5 6 ~ 2 0 16 0 10 20 30 40 5G 60 70 4 6 & WW 12 14 16 18 TEMPERATURE = C TEMPERATURE = C SUPPLY VOLTAGE + V Open Loop Voltage Gain as a Open Loop Gain as a Power Consumption as a Function of Frequency Function of Temperature Function of Ambient Temperature OOK Vg 7 15V 2 Vs 15V 2 600K - z Zz < = 3 2 & : 2 400k 5 3 2 = 3 8 a $ 5 g 200K = 2 3S < 1 40 100 1K 10K 100K 1A1 10M FREQUENCY Hy TEMPERATURE TEMPERATURE = Typical Output Voltage as a Output Voltage Swing as a Output Voltage Swing as a Function of Supply Voltage Function of Load Resistance Function of Frequency > . > Ta 25C Vg 1 18V vg 11 6 Ta 25C o Ta 26C > Z 5 RL Ki! 2 Eb 2 5 2 5 & 5 a 2 3 . g x 2 a cs < a 2 2 a 6 o e e x x < 2 o 4 6 8 10 2 14 16 18 0102 05 10 20 50 10 100 1K 10K 100K 1M SUPPLY VOLTAGE + V LOAD RESISTANCE Ki? FREQUENCY He Quiesent Current as a Voltage Foliowes Function of Supply Voltage Transient Response Large-Signal Pulse Response 10 Ta 25C Vs 115V Z 3 Ta 26C = 3 = z Aisv t a 6 e x 26 C z s 5 2KL > 6 rb kb 4 & 100pF 5 z a z 3 3 3? 10%, RISE 0 3 6 9 12 15 1B SUPPLY VOLTAGE Vv TIME ys 1102Dual High-Gain Operational Amplifier 4558 TYPICAL ELECTRICAL DATA Input Noise Voltage Input Noise Current as a Function of Frequency as a Function of Frequency _ 1000 100 = = |x .= ? Heovg +15V ? ven ntay > Ten TG ' Ta 25C < g= #15 2 100 AS 3 10 Ta 25C Rs 502) x . oS = = Ay ~ 60dB Zz Rg = 100K Q q : w Ay 600B 5 T 5 = = 1 g 10 = 5 = 3 } + Tt Th a 2 Ea g z pL ttl Lu i 2 01 10 +00 1K 10K 100K 1 10 100 1K 10K 100K FREQUENCY (Hz} FREQUENCY (Hz) wo: Total Harmonic Distortion Channel Separation vs Output Voltage 140 2 So 6 a 9 = 120 E Vs Os Sf Re z 3 100 ae Ay E or a c oe z % 20 a}. *S oO + a 60 29 i wn az a <0 2 a 4 40 z Z sof YS *18Y < z Ta 26 C 9 0 1 2 3 4 & 6 7 8 9 10 10 100 1K 10K 100K FREQUENCY (Hz) Vo OUTPUT VOLTAGE (VRMS) Distortion vs Frequency Vo = Ivrms Vg = $30V RIAA COMPENSATION \ i TOTAL HARMONIC DISTORTION i%) 100 1K 10K 100K FREQUENCY (Hz) 1-103