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| TL064 TL064A - TL064B LOW POWER J-FET QUAD OPERATIONAL AMPLIFIERS s VERY LOW POWER CONSUMPTION : 200A s WIDE COMMON-MODE (UP TO VCC+) AND DIFFERENTIAL VOLTAGE RANGES s LOW INPUT BIAS AND OFFSET CURRENTS s OUTPUT SHORT-CIRCUIT PROTECTION s HIGH INPUT IMPEDANCE J-FET INPUT STAGE N DIP14 (Plastic Package) s INTERNAL FREQUENCY COMPENSATION s LATCH UP FREE OPERATION s HIGH SLEW RATE : 3.5V/s D SO14 (Plastic Micropackage) DESCRIPTION The TL064, TL064A and TL064B are high speed J-FET input quad operational amplifiers. Each of these J-FET input operational amplifiers incorporates well matched, high voltage J-FET and bipolar transistors in a monolithic integrated circuit. The device features high slew rate, low input bias and offset currents, and low offset voltage temperature coefficient. PIN CONNECTIONS (top view) ORDER CODE Package Part Number Temperature Range N TL064M/AM/BM TL064I/AI/BI TL064C/AC/BC Example : TL064IN -55C, +125C -40C, +105C 0C, +70C * * * D * * * N = Dual in Line Package (DIP) D = Small Outline Package (SO) - also available in Tape & Reel (DT) Output 1 1 Inverting Input 1 2 Non-inverting Input 1 3 VCC + 4 Non-inverting Input 2 5 Inverting Input 2 6 Output 2 7 + + + + 14 Output 4 13 Inverting Input 4 12 Non-inverting Input 4 11 VCC 10 Non-inverting Input 3 9 8 Inverting Input 3 Output 3 November 2001 1/10 TL064 - TL064A - TL064B SCHEMATIC DIAGRAM VCC 220 Inverting Input Non-inverting Input 45k 270 3.2k 64 Output 1/4 TL064 4.2k 100 V CC ABSOLUTE MAXIMUM RATINGS Symbol VCC Vi Vid Ptot Toper Tstg 1. 2. 3. 4. Parameter Supply voltage - note 1) Input Voltage - note Power Dissipation Output Short-circuit Duration - note 4) Operating Free-air Temperature Range Storage Temperature Range 2) 3) TL064M, AM, BM TL064I, AI, BI TL064C, AC, BC Unit V V V mW 18 15 30 680 Infinite -55 to +125 -40 to +105 -65 to +150 0 to +70 Differential Input Voltage - note C C All voltage values, except differential voltage, are with respect to the zero reference level (ground) of the supply voltages where the zero reference level is the midpoint between VCC + and VCC -. The magnitude of the input voltage must never exceed the magnitude of the supply voltage or 15 volts, whichever is less. Differential voltages are the non-inverting input terminal with respect to the inverting input terminal. The output may be shorted to ground or to either supply. Temperature and/or supply voltages must be limited to ensure that the dissipation rating is not exceeded 2/10 TL064- TL064A - TL064B ELECTRICAL CHARACTERISTICS VCC = 15V, Tamb = +25C (unless otherwise specified) TL064M Symbol Parameter Min. Vio DVio Iio Input Offset Voltage (Rs = 50) Tamb = 25C Tmin Tamb Tmax Temperature Coefficient of Input Offset Voltage (Rs = 50) Input Offset Current - note 1) Tamb = 25C Tmin Tamb Tmax Input Bias Current - note 1 Tamb = 25C Tmin Tamb Tmax Input Common Mode Voltage Range Output Voltage Swing (RL = 10k) Tamb = 25C Tmin Tamb Tmax Large Signal Voltage Gain RL = 10k, Vo = 10V, Tamb = 25C Tmin Tamb Tmax Gain Bandwith Product Tamb = 25C, RL =10k, CL = 100pF Input Resistance Typ. Max. Min. 3 6 15 Typ. Max. Min. 3 6 9 Typ. Max. mV 3 15 20 V/C TL064I TL064C Unit 10 5 100 20 200 50 10 5 100 10 200 20 11 10 5 200 5 400 10 pA nA pA nA V V Iib Vicm Vopp 30 11.5 +15 -12 20 20 27 30 11.5 +15 -12 20 20 27 30 +15 -12 27 20 20 V/mV 4 4 6 4 4 6 3 3 6 MHz 1 1012 80 80 86 95 80 80 1 1012 86 95 70 70 1 1012 76 dB 95 A 200 120 250 200 120 250 200 120 mW 6 7.5 6 7.5 6 7.5 V/s 1.5 3.5 1.5 3.5 1.5 3.5 s 0.2 0.2 0.2 % 10 42 10 42 10 42 nV ----------Hz 250 dB Avd GBP Ri dB CMR SVR ICC Common Mode Rejection Ratio RS = 50 Supply Voltage Rejection Ratio RS = 50 Supply Current, Per Amplifier Tamb = 25C, no load, no signal Channel Separation Vo1/Vo2 Av = 100, Tamb = 25C PD Total Power Consumption Tamb = 25C, no load, no signal Slew Rate Vi = 10V, RL = 10k, CL = 100pF, Av = 1 Rise Time 5 (see figure 1) Vi = 20mV, RL = 10k, CL = 100pF, Av = 1 Overshoot Factor (see figure 1) Vi = 20mV, RL = 10k, CL = 100pF, Av = 1 (see figure 1) Equivalent Input Noise Voltage RS = 100, f = 1KHz SR tr Kov en 1. The input bias currents of a FET-input operational amplifier are normal junction reverse currents, which are temperature sensitive. Pulse techniques must be used that will maintain the junction temperature as close to the ambient temperature as possible. 3/10 TL064 - TL064A - TL064B ELECTRICAL CHARACTERISTICS VCC = 15V, Tamb = +25C (unless otherwise specified) TL064AC, AI, AM Symbol Parameter Min. Vio DVio Iio Input Offset Voltage (Rs = 50) Tamb = 25C Tmin Tamb Tmax Temperature Coefficient of Input Offset Voltage (Rs = 50) Input Offset Current - note Tamb = 25C Tmin Tamb Tmax 1) TL064BC, BI, BM Unit Min. Typ. 2 10 Max. mV 3 5 V/C 100 3 200 7 pA nA pA nA V V Typ. 3 10 5 Max. 6 7.5 100 3 200 7 11.5 5 Iib Vicm Vopp Input Bias Current - note 1 Tamb = 25C Tmin Tamb Tmax Input Common Mode Voltage Range Output Voltage Swing (RL = 10k) Tamb = 25C Tmin Tamb Tmax Large Signal Voltage Gain RL = 10k, Vo = 10V, Tamb = 25C Tmin Tamb Tmax Gain Bandwidth Product Tamb = 25C, RL =10k, CL = 100pF 11.5 30 +15 -12 27 30 +15 -12 27 20 20 20 20 V/mV 4 4 6 4 4 6 MHz 1 1012 80 80 86 95 200 120 6 1.5 3.5 0.2 10 42 7.5 1.5 250 80 80 1 1012 86 dB 95 A 200 120 6 3.5 s 0.2 % 10 42 nV ----------Hz 7.5 mW V/s 250 dB Avd GBP Ri Input Resistance Common Mode Rejection Ratio CMR RS = 50 SVR ICC Vo1/Vo2 PD SR tr Kov en 1. dB Supply Voltage Rejection Ratio RS = 50 Supply Current (Per Amplifier) Tamb = +25C, no load, no signal Channel Separation Av = 100, Tamb = +25C Total Power Consumption (Each Amplifier) Tamb = 25C, no load, no signal Slew Rate Vi = 10V, RL = 10k, CL = 100pF, Av = 1 Rise Time Vi = 20mV, RL = 10k, CL = 100pF, Av = 1 Overshoot Factor (see figure 1) Vi = 20mV, RL = 10k, CL = 100pF, Av = 1 Equivalent Input Noise Voltage RS = 100, f = 1KHz The input bias currents of a FET-input operational amplifier are normal junction reverse currents, which are temperature sensitive. Pulse techniques must be used that will maintain the junction temperature as close to the ambient temperature as possible. 4/10 TL064- TL064A - TL064B MAXIMUM PEAK-TO-PEAK OUTPUT VOLTAGE versus SUPPLY VOLTAGE MAXIMUM PEAK-TO-PEAK OUTPUT VOLTAGE versus FREE AIR TEMPERATURE MAXIMUM PEAK-TO-PEAK OUTPUT VOLTAGE versus LOAD RESISTANCE MAXIMUM PEAK-TO-PEAK OUTPUT VOLTAGE versus FREQUENCY DIFFERENTIAL VOLTAGE AMPLIFICATION versus FREE AIR TEMPERATURE LARGE SIGNAL DIFFERENTIAL VOLTAGE AMPLIFICATION AND PHASE SHIFT versus FREQUENCY 10 6 10 DIFFERENTIAL VOLTAGE AMPLIFICATION (V/V) 105 4 10 DIFFERENTIAL VOLTAGE AMPLIFICATION (V/mV) 7 4 VCC = 5V to 15V RL = 2k Tamb = +25 C DIFFERENTIAL VOLTAGE AMPLIFICATION (left scale) PHASE SHIFT (right scale) 0 3 10 102 101 1 45 90 135 2 VCC = 15V R L = 10k 1 -75 -50 0 25 -25 50 75 100 FREE AIR TEMPERATURE (C) 125 10 100 1k 10k 100k 1M 180 10M FREQUENCY (Hz) 5/10 TL064 - TL064A - TL064B SUPPLY CURRENT PER AMPLIFIER versus SUPPLY VOLTAGE SUPPLY CURRENT PER AMPLIFIER versus FREE AIR TEMPERATURE 250 SUPPLY CURRENT (A) SUPPLY CURRENT (A) 250 200 150 100 50 T amb = +25C No signal No load 200 150 100 50 VCC = 15V No signal No load -75 -50 50 75 100 125 -25 0 25 FREE AIR TEMPERATURE (C) 0 0 2 4 10 12 6 8 SUPPLY VOLTAGE ( V) 14 0 16 TOTAL POWER DISSIPATED versus FREE AIR TEMPERATURE COMMON MODE REJECTION RATIO versus FREE AIR TEMPERATURE 30 25 87 COMMON MODE REJECTION RATIO (dB) 86 85 84 83 82 81 -75 V C C = 1 5V R L = 1 0k TOTAL POWER DISSIPATED (mW) 20 15 10 VCC = 15V No signal No load 5 0 -75 -50 -25 0 25 50 75 100 125 -50 -25 0 25 50 75 100 125 FREE AIR TEMPERATURE (C) FREE AIR TEMPERATURE (C) NORMALIZED UNITY GAIN BANDWIDTH SLEW RATE, AND PHASE SHIFT versus TEMPERATURE INPUT BIAS CURRENT versus FREE AIR TEMPERATURE 100 NORMALIZED UNITY-GAIN BANDWIDTH AND SLEW RATE UNITY -GAIN-BANDWIDTH (left sc ale) PHASE SH IFT (right scale) INPUT BIAS CURRENT (nA) 1.3 1.2 1.1 1.03 1.02 1.01 VCC = 10 1 0.1 15V NORMALIZED PHASE SHIFT 1 0.9 0.8 VCC = 15V R L = 10k f = B 1for phase shift SLEW RAT E (left scale) 1 0.99 0.98 0.7 -75 -50 -25 0 25 50 0.97 75 100 125 FREE AIR TEMPERATURE (C) 0.01 -50 -25 0 25 50 75 100 125 FREE AIR TEMPERATURE (C) 6/10 TL064- TL064A - TL064B VOLTAGE FOLLOWER LARGE SIGNAL PULSE RESPONSE INPUT AND OUTPUT VOLTAGES (V) 6 4 INPUT OUTPUT VOLTAGE versus ELAPSED TIME 28 24 OUTPUT VOLTAGE (mV) OVERSHOOT 2 0 -2 -4 -6 0 2 4 6 TIME (s) VCC = 15V R L = 10k CL = 100pF OUTPUT 20 16 12 8 4 10% 90% V Tamb = +25C 0 -4 0 tr 0.2 0.4 0.6 0.8 TIME ( s) R L = 10k Tamb = +25C 1 12 14 CC = 15V 8 10 EQUIVALENT INPUT NOISE VOLTAGE versus FREQUENCY 100 EQUIVALENT INPUT NOISE VOLTAGE (nV/VHz) 90 80 70 60 50 40 30 20 10 0 40 10 100 400 1k 4k 10k 40k 100k FREQUENCY (Hz) VC C = 15V R S = 100 T a m b = +25 C 7/10 TL064 - TL064A - TL064B PARAMETER MEASUREMENT INFORMATION Figure 1 : Voltage Follower Figure 2 : Gain-of-10 Inverting Amplifier 10k 1k 10k 1k eI 1/4 eI TL064 eo 1/4 TL064 eo RL CL = 100pF RL CL = 100pF TYPICAL APPLICATIONS AUDIO DISTRIBUTOR AMPLIFIER fO = 100kHz 1M 1/4 TL064 Output A 1F Input 100k 100k 100k 100k 1/4 TL064 - 1/4 TL064 Output B 1OO F V CC+ 1/4 TL064 Output C 8/10 TL064- TL064A - TL064B PACKAGE MECHANICAL DATA 14 PINS - PLASTIC DIP Millimeters Dimensions Min. a1 B b b1 D E e e3 F i L Z 0.51 1.39 0.5 0.25 20 8.5 2.54 15.24 7.1 5.1 3.3 1.27 2.54 0.050 Typ. Max. 1.65 Min. 0.020 0.055 Inches Typ. Max. 0.065 0.020 0.010 0.787 0.335 0.100 0.600 0.280 0.201 0.130 0.100 9/10 TL064 - TL064A - TL064B PACKAGE MECHANICAL DATA 14 PINS - PLASTIC MICROPACKAGE (SO) L C G c1 a2 b e3 D M e A s E 14 1 8 7 F Millimeters Dimensions Min. A a1 a2 b b1 C c1 D (1) E e e3 F (1) G L M S 0.1 0.35 0.19 0.5 45 (typ.) 8.55 5.8 1.27 7.62 3.8 4.6 0.5 4.0 5.3 1.27 0.68 8 (max.) 0.150 0.181 0.020 8.75 6.2 0.336 0.228 Typ. Max. 1.75 0.2 1.6 0.46 0.25 Min. 0.004 0.014 0.007 a1 b1 Inches Typ. Max. 0.069 0.008 0.063 0.018 0.010 0.020 0.344 0.244 0.050 0.300 0.157 0.208 0.050 0.027 Note : (1) D and F do not include mold flash or protrusions - Mold flash or protrusions shall not exceed 0.15mm (.066 inc) ONLY FOR DATA BOOK. Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics. (c) The ST logo is a registered trademark of STMicroelectronics (c) 2001 STMicroelectronics - Printed in Italy - All Rights Reserved STMicroelectronics GROUP OF COMPANIES Australia - Brazil - China - Finland - France - Germany - Hong Kong - India - Italy - Japan - Malaysia - Malta - Morocco Singapore - Spain - Sweden - Switzerland - United Kingdom (c) http://www.st.com 10/10 |
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