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ISO 9001 CERTIFIED BY DSCC M.S KENNEDY CORP. 4707 Dey Road Liverpool, N.Y. 13088 HIGH POWER HIGH POWER OP-AMP OP-AMP 0021 SERIES (315) 701-6751 MIL-PRF-38534 QUALIFIED FEATURES: Available as SMD #5962-8508801 High Output Current - 2 Amps Peak Low Power Consumption-Class C Design Programmable Current Limit High Slew Rate Continuous Output Short Circuit Duration Replacement for LH0021 MSK0021FP MSK0021 DESCRIPTION: MSK0021FPG The MSK 0021, 0021FP and 0021FPG are general purpose Class C power operational amplifiers. These amplifiers offer large output currents, making them an excellent low cost choice for motor drive circuits. The amplifier and load can be protected from fault conditions through the use of internal current limit circuitry that can be user programmed with two external resistors. These devices are also compensated with a single external capacitor. The MSK 0021 is available in a hermetically sealed 8 pin TO-3 package. The MSK 0021FP is packaged in a 20 pin hermetic metal flatpack and the 0021FPG is lead formed by MSK. EQUIVALENT SCHEMATIC PIN-OUT INFORMATION MSK0021 1 ISC+ 2 +VCC 3 GND 4 Compensation 5 -Input 6 +Input 7 -VCC 8 ISC CASE-OUTPUT MSK0021FP/MSK0021FPG 1 2 3 4 5 6 7 8 9 10 20 -VCC ISC19 NC ISC18 +VIN ISC17 NC VOUT 16 -VIN VOUT 15 NC VOUT 14 Compensation VOUT 13 NC ISC+ 12 GND ISC+ ISC+ 11 +VCC CASE IS ALSO VOUT TYPICAL APPLICATIONS Servo Amplifer Motor Driver Audio Amplifier Programmable Power Supply 1 Rev. A 6/03 ABSOLUTE MAXIMUM RATINGS ELECTRICAL SPECIFICATIONS Parameter STATIC Supply Voltage Range 2 Quiescent Current Power Consumption 2 INPUT Input Offset Voltage Input Bias Current Input Offset Current Input Capacitance Input Resistance 3 2 Test Conditions Military 5 Group A Subgroup Min. Typ. Max. 1, 2, 3 1,2,3 1 2, 3 1 2, 3 1 2,3 4 5,6 1 2,3 4 5,6 4 4 4 4 4 5,6 4 4 12 15 1.0 75 0.3 70 70 80 80 13.5 13.5 11 0.8 50 1.5 100 88 0.5 2.0 100 0.4 2.0 3 1.0 90 90 95 5 14 14 12 1.2 150 4 3.0 105 96 0.3 5 18 3.5 105 3.0 5.0 300 1.0 100 300 - Industrial 4 Min. Typ. Max. 12 15 18 1.0 4.0 120 90 0.3 70 80 0.5 5.0 500 150 300 2.0 3 1.0 90 95 5 1.7 250 1.2 20 VIN = 0V VIN = 0V VIN = 0V VCM = 0V Either Input VCM = 0V F=DC F=DC F = 10HZ VCM = 10V Common Mode Rejection Ratio Power Supply Rejection Ratio Input Noise Voltage OUTPUT 3 VCC = 5V to 15V F = 10HZ to 10KHZ RL =100 F =100HZ RL =10 RSC = 0.5 RSC = 5 0.1% F =100HZ VOUT = MAX VOUT = GND 2V step RL = 10 Output Voltage Swing Output Short Circuit Current Settling Time 3 TRANSFER CHARACTERISTICS Slew Rate Open Loop Voltage Gain Transition Times Overshoot 13.0 14 10.5 12 1.6 0.7 1.2 250 50 150 4 1.0 20 1.2 100 3.0 105 0.3 5 VOUT = 10V F = 10HZ RL = 1K Rise and Fall Small Signal NOTES: 1 2 3 4 5 6 7 Unless otherwise specified, VCC = 15V, CC = 3000pF. Guaranteed by design but not tested. Typical parameters are representative of actual device performance but are for reference only. Industrial grade and "E" suffix devices shall be tested to subgroups 1 and 4 unless otherwise specified. Military grade devices (B/H suffix) shall be 100% tested to subgroups 1, 2, 3 and 4. Subgroup 1, 4 TA = TC = +25C Subgroup 2, 5 TA = TC = +125C Subgroup 3, 6 TA = TC = -55C Reference DSCC SMD 5962-8508801 for electrical specifications for devices purchased as such. Subgroup 5 and 6 testing available upon request. 2 2.0 C/W 6.0 C/W -55C to +125C -40C to +85C Units V mA mW mV V/C nA A nA nA pF M dB dB dB dB VRMS V V V A mA S V/S dB dB S % Rev. A 6/03 VCC IOUT VIN VIN RTH Supply Voltage Peak Output Current Differential Input Voltage Common Mode Input Voltage Thermal Resistance-Junction to Case MSK 0021 MSK 0021FP/FPG 18V 2A 30V 15V TST TLD PD TJ TC Storage Temperature Range Lead Temperature Range (10 Seconds) Power Dissipation (TO-3) Junction Temperature Case Operating Temperature Range Military Versions (H/B/E) Industrial Versions -65 to +150C 300C 6W 150C HEAT SINKING To select the correct heat sink for your application, refer to the thermal model and governing equation below. CURRENT LIMIT The MSK 0021 has an on-board current limit scheme designed to limit the output drivers anytime output current exceeds a predetermined limit. The following formula may be used to determine the value of the current limit resistance necessary to establish the desired current limit. 0.7 ___ ISC Thermal Model: Current Limit Connection Governing Equation: TJ = PD X (RJC + RCS + RSA) + TA Where TJ PD RJC RCS RSA TC TA TS = = = = = = = = Junction Temperature Total Power Dissipation Junction to Case Thermal Resistance Case to Heat Sink Thermal Resistance Heat Sink to Ambient Thermal Resistance Case Temperature Ambient Temperature Sink Temperature See "Application Circuits" in this data sheet for additional information on current limit connections. POWER SUPPLY BYPASSING Both the negative and the positive power supplies must be effectively decoupled with a high and low frequency bypass circuit to avoid power supply induced oscillation. An effective decoupling scheme consists of a 0.1 microfarad ceramic capacitor in parallel with a 4.7 microfarad tantalum capacitor from each power supply pin to ground. It is also a good practice with high power op-amps, such as the MSK 0021, to place a 30-50 microfarad capacitor with a low effective series resistance, in parallel with the other two power supply decoupling capacitors. This capacitor will eliminate any peak output voltage clipping which may occur due to poor power supply load regulation. All power supply decoupling capacitors should be placed as close to the package power supply pins as possible. Example: (TO-3 PACKAGE) In our example the amplifier application requires the output to drive a 10 volt peak sine wave across a 10 ohm load for 1 amp of output current. For a worst case analysis we will treat the 1 amp peak output current as a D.C. output current. The power supplies are 15 VDC. 1.) Find Power Dissipation PD=[(quiescent current) X (+VCC - (VCC))] + [(VS - VO) X IOUT] =(3.5 mA) X (30V) + (5V) X (1A) =0.1W + 6W =6.1W 2.) For conservative design, set TJ = +150C. 3.) For this example, worst case TA = +25C. 4.) RJC = 2.0C/W typically for the TO-3 package. 5.) Rearrange governing equation to solve for RSA: RSA = (TJ - TA) / PD - (RJC) - (RCS) = (150C - 25C) / 6.1W - (2.0C/W) - (0.15C/W) = 18.5C/W The heat sink in this example must have a thermal resistance of no more than 18.5C/W to maintain a junction temperature of less than +150C. 3 SAFE OPERATING AREA The safe operating area curve is a graphical representation of the power handling capability of the amplifier under various conditions. The wire bond current carrying capability, transistor junction temperature and secondary breakdown limitations are all incorporated into the safe operating area curves. All applications should be checked against the S.O.A. curves to ensure high M.T.B.F. Rev. A 6/03 APPLICATION NOTES RSC= APPLICATION CIRCUITS 4 Rev. A 6/03 TYPICAL PERFORMANCE CURVES 5 Rev. A 6/03 MECHANICAL SPECIFICATIONS MSK0021 NOTE: ALL DIMENSIONS ARE 0.010 INCHES UNLESS OTHERWISE LABELED ORDERING INFORMATION Part Number MSK 0021 MSK 0021 B MSK 0021 E 5962-8508801X Screening Level Industrial MIL-PRF-38534 CLASS H EXTENDED RELIABILITY DSCC - SMD 6 Rev. A 6/03 MECHANICAL SPECIFICATIONS CONTINUED MSK0021FP NOTE: ALL DIMENSIONS ARE 0.010 INCHES UNLESS OTHERWISE LABELED. ESD Triangle indicates pin 1. ORDERING INFORMATION Part Number MSK 0021FP MSK 0021FP H MSK 0021FP E TBD Screening Level Industrial MIL-PRF-38534 CLASS H EXTENDED RELIABILITY DSCC - SMD 7 Rev. A 6/03 MECHANICAL SPECIFICATIONS CONTINUED MSK0021FPG NOTE: ALL DIMENSIONS ARE 0.010 INCHES UNLESS OTHERWISE LABELED. ESD Triangle indicates pin 1. ORDERING INFORMATION Part Number MSK 0021FPG MSK 0021FPG H MSK 0021FPG E TBD Screening Level Industrial MIL-PRF-38534 CLASS H EXTENDED RELIABILITY DSCC - SMD M.S. Kennedy Corp. 4707 Dey Road, Liverpool, New York 13088 Phone (315) 701-6751 Fax (315) 701-6752 www.mskennedy.com The information contained herein is believed to be accurate at the time of printing. MSK reserves the right to make changes to its products or specifications without notice, however and assumes no liability for the use of its products. Please visit our website for the most recent revision of this datasheet 8 Rev. A 6/03 |
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