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| POWER OPERATIONAL AMPLIFIERS PA10 * PA10A MICROTECHNOLOGY HTTP://WWW.APEXMICROTECH.COM (800) 546-APEX (800) 546-2739 FEATURES * * * * * GAIN BANDWIDTH PRODUCT -- 4MHz TEMPERATURE RANGE -- -55 to +125 C (PA10A) EXCELLENT LINEARITY -- Class A/B Output WIDE SUPPLY RANGE -- 10V to 50V HIGH OUTPUT CURRENT -- 5A Peak APPLICATIONS * * * * * * MOTOR, VALVE AND ACTUATOR CONTROL MAGNETIC DEFLECTION CIRCUITS UP TO 4A POWER TRANSDUCERS UP TO 100kHz TEMPERATURE CONTROL UP TO 180W PROGRAMMABLE POWER SUPPLIES UP TO 90V AUDIO AMPLIFIERS UP TO 60W RMS TYPICAL APPLICATION R2A +42V R1A PA10 CONTROL .82 R1B -42V R2B LOAD 0-24 .82 RS DESCRIPTION The PA10 and PA10A are high voltage, high output current operational amplifiers designed to drive resistive, inductive and capacitive loads. For optimum linearity, the output stage is biased for class A/B operation. The safe operating area (SOA) can be observed for all operating conditions by selection of user programmable current limiting resistors. Both amplifiers are internally compensated for all gain settings. For continuous operation under load, a heatsink of proper rating is recommended. This hybrid integrated circuit utilizes thick film (cermet) resistors, ceramic capacitors and semiconductor chips to maximize reliability, minimize size and give top performance. Ultrasonically bonded aluminum wires provide reliable interconnections at all operating temperatures. The 8-pin TO-3 package is hermetically sealed and electrically isolated. The use of compressible isolation washers voids the warranty. FIGURE 1. VOLTAGE-TO-CURRENT CONVERSION DC and low distortion AC current waveforms are delivered to a grounded load by using matched resistors (A and B sections) and taking advantage of the high common mode rejection of the PA10. Foldover current limit is used to modify current limits based on output voltage. When load resistance drops to 0, the current is limited based on output voltage. When load resistance drops to 0, the current limit is 0.79A resulting in an internal dissipation of 33.3 W. When output voltage increases to 36V, the current limit is 1.69A. Refer to Application Note 9 on foldover limiting for details. EQUIVALENT SCHEMATIC 3 D1 Q2A Q1 Q2B EXTERNAL CONNECTIONS +VS 2 Q3 CL+ 3 2 1 R CL+ OUT OUTPUT +IN Q4 Q5 1 7 8 4 TOP VIEW -IN 5 6 7 8 CL- R CL- 4 A1 5 6 C1 Q6A Q6B -VS FO APEX MICROTECHNOLOGY CORPORATION * TELEPHONE (520) 690-8600 * FAX (520) 888-3329 * ORDERS (520) 690-8601 * EMAIL prodlit@apexmicrotech.com PA10 * PA10A ABSOLUTE MAXIMUM RATINGS SUPPLY VOLTAGE, +VS to -VS OUTPUT CURRENT, within SOA POWER DISSIPATION, internal INPUT VOLTAGE, differential INPUT VOLTAGE, common mode TEMPERATURE, pin solder - 10s TEMPERATURE, junction1 TEMPERATURE RANGE, storage OPERATING TEMPERATURE RANGE, case PA10 TEST CONDITIONS 2, 5 ABSOLUTE MAXIMUM RATINGS SPECIFICATIONS 100V 5A 67W VS -3V VS 300C 200C -65 to +150C -55 to +125C PA10A MAX MIN TYP MAX UNITS SPECIFICATIONS PARAMETER INPUT OFFSET VOLTAGE, initial OFFSET VOLTAGE, vs. temperature OFFSET VOLTAGE, vs. supply OFFSET VOLTAGE, vs. power BIAS CURRENT, initial BIAS CURRENT, vs. temperature BIAS CURRENT, vs. supply OFFSET CURRENT, initial OFFSET CURRENT, vs. temperature INPUT IMPEDANCE, DC INPUT CAPACITANCE COMMON MODE VOLTAGE RANGE3 COMMON MODE REJECTION, DC3 GAIN OPEN LOOP GAIN at 10Hz OPEN LOOP GAIN at 10Hz GAIN BANDWIDTH PRODUCT @ 1MHz POWER BANDWIDTH PHASE MARGIN OUTPUT VOLTAGE SWING3 VOLTAGE SWING3 VOLTAGE SWING3 CURRENT, peak SETTLING TIME to .1% SLEW RATE CAPACITIVE LOAD CAPACITIVE LOAD CAPACITIVE LOAD POWER SUPPLY VOLTAGE CURRENT, quiescent THERMAL RESISTANCE, AC, junction to case4 RESISTANCE, DC, junction to case RESISTANCE, junction to air TEMPERATURE RANGE, case NOTES: * 1. 2. 3. 4. 5. TC = -55 to +125C, F > 60Hz TC = -55 to +125C TC = -55 to +125C Meets full range specifications Full temperature range TC = 25C 10 8 TC = 25C, IO = 5A Full temp. range, IO = 2A Full temp. range, IO = 80mA TC = 25C TC = 25C, 2V step TC = 25C Full temperature range, AV = 1 Full temperature range, AV = 2.5 Full temperature range, AV > 10 VS-8 VS-6 VS-5 5 2 TC = 25C, 1K load Full temp. range, 15 load TC = 25C, 15 load TC = 25C, 15 load Full temp. range, 15 load 96 10 TC = 25C Full temperature range TC = 25C TC = 25C TC = 25C Full temperature range TC = 25C TC = 25C Full temperature range TC = 25C TC = 25C Full temperature range Full temp. range, VCM = VS -6V MIN TYP VS-5 74 2 10 30 20 12 50 .10 12 50 200 3 VS-3 100 6 65 200 30 500 30 * * 1 * * * 10 * * 5 * * * * * 3 40 * 20 * 10 mV V/C V/V VW nA pA/C pA/V nA pA/C M pF V dB 110 108 4 15 20 VS-5 * * * * * * * dB dB MHz kHz V V V A s V/s nF nF nF VS-6 * * * * .68 10 SOA * 2 3 * * * * * 50 * 40 15 45 30 * * * * V mA C/W C/W C/W C 1.9 2.4 30 -25 2.1 2.6 +85 -55 * * * * * +125 The specification of PA10A is identical to the specification for PA10 in applicable column to the left. Long term operation at the maximum junction temperature will result in reduced product life. Derate internal power dissipation to achieve high MTTF. The power supply voltage for all tests is 40, unless otherwise noted as a test condition. +VS and -VS denote the positive and negative supply rail respectively. Total VS is measured from +VS to -VS. Rating applies if the output current alternates between both output transistors at a rate faster than 60Hz. Full temperature range specifications are guaranteed but not tested. The internal substrate contains beryllia (BeO). Do not break the seal. If accidentally broken, do not crush, machine, or subject to temperatures in excess of 850C to avoid generating toxic fumes. CAUTION APEX MICROTECHNOLOGY CORPORATION * 5980 NORTH SHANNON ROAD * TUCSON, ARIZONA 85741 * USA * APPLICATIONS HOTLINE: 1 (800) 546-2739 TYPICAL PERFORMANCE GRAPHS PA10 * PA10A NORMALIZED BIAS CURRENT, I B (X) INTERNAL POWER DISSIPATION, P(W) 70 60 POWER DERATING BIAS CURRENT 2.5 3.5 2.2 1.9 1.6 1.3 1.0 .7 .4 -50 -25 0 25 50 75 100 125 CASE TEMPERATURE, TC (C) 0 -30 -60 3.0 2.5 2.0 1.5 1.0 .5 CURRENT LIMIT T = TC 50 40 30 PA10 20 10 0 0 20 40 60 80 100 120 140 TEMPERATURE, T (C) T = TA PA10A CURRENT LIMIT, I LIM (A) R CL = 0.3 R CL = 0.6 0 -50 -25 0 25 50 75 100 125 CASE TEMPERATURE, TC (C) SMALL SIGNAL RESPONSE 120 PHASE RESPONSE 100 POWER RESPONSE OUTPUT VOLTAGE, VO (VPP ) 68 46 32 22 15 10 6.8 4.6 10K 20K 30K 50K 70K .1M FREQUENCY, F (Hz) |+VS | + |-VS | = 30V |+VS | + |-VS | = 100V |+VS | + |-VS | = 80V OPEN LOOP GAIN, A (dB) 100 80 PHASE, () 1 10 100 1K 10K .1M 1M 10M FREQUENCY, F (Hz) 60 40 20 0 -90 -120 -150 -180 -210 0 10 100 1K 10K .1M 1M 10M FREQUENCY, F (Hz) -20 COMMON MODE REJECTION, CMR (dB) 120 100 80 60 40 20 0 8 OUTPUT VOLTAGE, VO (V) 6 4 2 0 VIN = 5V, t r = 100ns INPUT NOISE VOLTAGE, VN (nV/ Hz) COMMON MODE REJECTION PULSE RESPONSE INPUT NOISE 70 50 40 30 20 100 -2 -4 -6 0 2 46 8 10 12 TIME, t (s) -8 0 10 100 1K 10K .1M FREQUENCY, F (Hz) 1M 10 10 1K 100 10K FREQUENCY, F (Hz) .1M VOLTAGE DROP FROM SUPPLY, (V) 3 1 HARMONIC DISTORTION AV =10 VS = 38V R L =8 W = 2W W NORMALIZED QUIESCENT CURRENT, I Q (X) QUIESCENT CURRENT 1.6 1.4 1.2 1.0 .8 .6 C T C = 25 5C TC = -2 OUTPUT VOLTAGE SWING 6 5 4 3 +VO 25C DISTORTION (%) TC = .3 .1 = PO m 50 -VO 25 TC = TC = TC to 8 5C .03 .01 PO C TC = 85 5C T C = 12 PO = 60 2 1 25C 5C to 8 = 25 .003 100 300 1K 3K 10K 30K .1M FREQUENCY, F (Hz) .4 40 50 60 70 80 90 100 TOTAL SUPPLY VOLTAGE, V S (V) 0 1 2 3 4 OUTPUT CURRENT, I O (A) 5 APEX MICROTECHNOLOGY CORPORATION * TELEPHONE (520) 690-8600 * FAX (520) 888-3329 * ORDERS (520) 690-8601 * EMAIL prodlit@apexmicrotech.com PA10 * PA10A GENERAL Please read Application Note 1 "General Operating Considerations" which covers stability, supplies, heat sinking, mounting, current limit, SOA interpretation, and specification interpretation. Visit www.apexmicrotech.com for design tools that help automate tasks such as calculations for stability, internal power dissipation, current limit; heat sink selection; Apex's complete Application Notes library; Technical Seminar Workbook; and Evaluation Kits. OPERATING CONSIDERATIONS VS 50V 40V 35V 30V 25V 20V 15V SHORT TO VS C, L, OR EMF LOAD .21A .3A .36A .46A .61A .87A 1.4A SHORT TO COMMON .61A .87A 1.0A 1.4A 1.7A 2.2A 2.9A SAFE OPERATING AREA (SOA) The output stage of most power amplifiers has three distinct limitations: 1. The current handling capability of the transistor geometry and the wire bonds. 2. The second breakdown effect which occurs whenever the simultaneous collector current and collector-emitter voltage exceeds specified limits. 3. The junction temperature of the output transistors. 5.0 CURRENT LIMITING Refer to Application Note 9, "Current Limiting", for details of both fixed and foldover current limit operation. Visit the Apex web site at www.apexmicrotech.com for a copy of the Power Design spreadsheet (Excel) which plots current limits vs. steady state SOA. Beware that current limit should be thought of as a +/-20% function initially and varies about 2:1 over the range of -55C to 125C. For fixed current limit, leave pin 7 open and use equations 1 and 2. RCL = 0.65/LCL ICL = 0.65/RCL Where: ICL is the current limit in amperes. RCL is the current limit resistor in ohms. For certain applications, foldover current limit adds a slope to the current limit which allows more power to be delivered to the load without violating the SOA. For maximum foldover slope, ground pin 7 and use equations 3 and 4. 0.65 + (Vo * 0.014) ICL = RCL 0.65 + (Vo * 0.014) RCL = (4) ICL (3) (1) (2) OUTPUT CURRENT FROM +VS OR - VS (A) 4.0 3.0 2.0 1.5 1.0 .8 .6 .4 .3 Tc =8 5C ste ad Tc ys t= ta te SE 5m =1 25 C TH ER MA L s t= t= 1m 0 . 5 s ms BR CO ND EA KD OW N .2 10 15 20 25 30 35 40 50 60 70 80 100 SUPPLY TO OUTPUT DIFFERENTIAL VOLTAGE VS - VO (V) The SOA curves combine the effect of these limits. For a given application, the direction and magnitude of the output current should be calculated or measured and checked against the SOA curves. This is simple for resistive loads but more complex for reactive and EMF generating loads. 1. For DC outputs, especially those resulting from fault conditions, check worst case stress levels against the new SOA graph. For sine wave outputs, use Power Design1 to plot a load line. Make sure the load line does not cross the 0.5ms limit and that excursions beyond any other second breakdown line do not exceed the time label, and have a duty cycle of no more than 10%. For other waveform outputs, manual load line plotting is recommended. Applications Note 22, SOA AND LOAD LINES, will be helpful. A Spice type analysis can be very useful in that a hardware setup often calls for instruments or amplifiers with wide common mode rejection ranges. 2. The amplifier can handle any EMF generating or reactive load and short circuits to the supply rail or shorts to common if the current limits are set as follows at TC = 85C: 1 Where: Vo is the output voltage in volts. Most designers start with either equation 1 to set RCL for the desired current at 0v out, or with equation 4 to set RCL at the maximum output voltage. Equation 3 should then be used to plot the resulting foldover limits on the SOA graph. If equation 3 results in a negative current limit, foldover slope must be reduced. This can happen when the output voltage is the opposite polarity of the supply conducting the current. In applications where a reduced foldover slope is desired, this can be achieved by adding a resistor (RFO) between pin 7 and ground. Use equations 4 and 5 with this new resistor in the circuit. 0.65 + Vo * 0.14 10.14 + RFO RCL 0.65 + Vo * 0.14 10.14 + RFO RCL = ICL Where: RFO is in K ohms. (6) ICL = (5) Note 1. Power Design is a self-extracting Excel spreadsheet available free from www.apexmicrotech.com This data sheet has been carefully CORPORATION * to be NORTH SHANNON ROAD assumed for possible inaccuracies or USA * APPLICATIONS HOTLINE: 1 (800) 546-2739 APEX MICROTECHNOLOGY checked and is believed 5980reliable, however, no responsibility*isTUCSON, ARIZONA 85741 * omissions. All specifications are subject to change without notice. PA10U REV. M FEBRURAY 2001 (c) 2001 Apex Microtechnology Corp. |
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