108&301&3"5*0/"-".1-*'*&3 PA05 * PA05A )551888"1&9.*$305&$)$0. "1&9 M I C R O T E C H N O L O G Y FEATURES * * * * * * * * HIGH INTERNAL DISSIPATION -- 250 Watts HIGH VOLTAGE, HIGH CURRENT -- 100V, 30A HIGH SLEW RATE -- 100V/s 4 WIRE CURRENT LIMIT SENSING LOW DISTORTION EXTERNAL SHUTDOWN CONTROL OPTIONAL BOOST VOLTAGE INPUTS EVALUATION KIT -- SEE EK09 12-pin Power DIP PACKAGE STYLE CR The JEDEC MO-127 12-pin Power DipTM package (see Package Outlines) is hermetically sealed and isolated from the internal circuits. The use of compressible thermal washers and/or improper mounting torque will void the product warranty. Please see "General Operating Considerations". APPLICATIONS * LINEAR AND ROTARY MOTOR DRIVES * sonar transducer driver * YOKE/MAGNETIC FIELD EXCITATION * PROGRAMMABLE POWER SUPPLIES TO 45V * AUDIO UP TO 500W TYPICAL APPLICATION DESCRIPTION The PA05 is a high voltage MOSFET power operational amplifier that extends the performance limits of power amplifiers in slew rate and power bandwidth, while maintaining high current and power dissipation ratings. The PA05 is a highly flexible amplifier. The shutdown control feature allows the output stage to be turned off for standby operation or load protection during fault conditions. Boost voltage inputs allow the small signal portion of the amplifier to operate at a higher voltage than the high current output stage. The amplifier is then biased to achieve close linear swings to the supply rails at high currents for extra efficient operation. External compensation tailors slew rate and bandwidth performance to user needs. A four wire sense technique allows precision current limiting without the need to consider internal or external milliohm parasitic resistance in the output line. The output stage is protected by thermal limiting circuits above junction temperatures of 175C. EQUIVALENT SCHEMATIC 4)65%08/ % 2 2 2 2 2 2 $0.1 2 2 2 #*"4 *-*. *-*. 2 2 % 2 m7#0045 2 065 % 2 m*/ % */ 2 % % 2 2 % % 3G $0/530-0(*$ 6-53" 40/*$ %3*7& 3J 1" 3 $- 56/&% 53"/4'03.&3 EXTERNAL CONNECTIONS m*/165 7T 7#0045 The high power bandwidth of the PA05 allows driving sonar transducers via a resonant circuit including the transducer and a matching transformer. The load circuit appears resistive to the PA05. Control logic turns off the amplifier's output during shutdown. 2 % m7T */165 $0.1 3 $$ $ $0.1 m7 #0045 4)65%08/ 501 7*&8 m4611-: $633&/5-*.*5 $633&/5-*.*5 7 #0045 4611-: 065165 PHASE COMPENSATION Gain CC RC 1 470pF 120 >3 220pF 120 10 82pF 120 CC RATED FOR FULL SUPPLY VOLTAGE *See BOOST OPERATION paragraph. APEX MICROTECHNOLOGY CORPORATION * TELEPHONE (520) 690-8600 * FAX (520) 888-3329 * ORDERS (520) 690-8601 * EMAIL prodlit@apexmicrotech.com PA05 * PA05A ABSOLUTE MAXIMUM RATINGS ABSOLUTE MAXIMUM RATINGS SPECIFICATIONS SUPPLY VOLTAGE, +VS to -VS BOOST VOLTAGE OUTPUT CURRENT, continuous within SOA POWER DISSIPATION, internal INPUT VOLTAGE, differential INPUT VOLTAGE, common mode TEMPERATURE, pin solder - 10s TEMPERATURE, junction2 TEMPERATURE, storage OPERATING TEMPERATURE RANGE, case SPECIFICATIONS PARAMETER TEST CONDITIONS 1 MIN PA05 TYP MAX 100V SUPPLY VOLTAGE +20V 30A 250W 20V VB 300C 175C -65 to +150C -55 to +125C MIN PA05A TYP MAX INPUT OFFSET VOLTAGE, initial 5 10 2 5 OFFSET VOLTAGE, vs. temperature Full temperature range 20 50 10 30 OFFSET VOLTAGE, vs. supply 10 30 * * OFFSET VOLTAGE, vs. power Full temperature range 30 10 BIAS CURRENT, initial 10 50 5 20 BIAS CURRENT, vs. supply .01 * OFFSET CURRENT, initial 10 50 5 20 INPUT IMPEDANCE, DC 1011 * INPUT CAPACITANCE 13 * COMMON MODE VOLTAGE RANGE Full temperature range VB-8 * COMMON MODE REJECTION, DC Full temp. range, VCM = 20V 90 100 * * INPUT NOISE 100KHz BW, RS = 1K 10 * GAIN OPEN LOOP, @ 15Hz GAIN BANDWIDTH PRODUCT POWER BANDWIDTH PHASE MARGIN Full temperature range, CC = 82pF 94 102 * * RL = 10 3 * RL = 4, VO = 80VP-P, AV = -10 400 * CC = 82pF, RC = 120 Full temperature range, CC = 470pF 60 * UNITS mV V/C V/V V/W pA pA/V pA pF V dB Vrms dB MHz kHz OUTPUT VOLTAGE SWING IO = 20A VS-9.5 VS-8.7 * * VOLTAGE SWING VBOOST = Vs + 5V, IO = 30A VS-5.8 VS-5.0 * * CURRENT, peak 30 * SETTLING TIME to .1% AV = +1, 10V step, RL = 4 2.5 * SLEW RATE AV = -10, CC = 82pF, RC = 120 80 100 * CAPACITIVE LOAD Full temperature range, AV = +1 2.2 * RESISTANCE IO = 0, No load, 2MHz 5 * IO = 1A, 2MHz 2 * V V A s V/s nF POWER SUPPLY VOLTAGE Full temperature range 15 CURRENT, quiescent, boost supply CURRENT, quiescent, total CURRENT, quiescent, total, shutdown V mA mA mA THERMAL RESISTANCE, AC, junction to case3 RESISTANCE, DC, junction to case RESISTANCE, junction to air4 TEMPERATURE RANGE, case 45 46 90 46 50 * 56 120 56 * * * * * * * * Full temperature range, F>60Hz .3 .4 * * Full temperature range, F<60Hz .4 .5 * * Full temperature range 12 * Meets full range specification -25 85 * * C/W C/W C/W C NOTES: * The specification of PA05A is identical to the specification for PA05 in applicable column to the left. 1. Unless otherwise noted: TC = 25C, CC = 470pF, RC = 120 ohms. DC input specifications are value given. Power supply voltage is typical rating. VBOOST = VS. 2. Long term operation at the maximum junction temperature will result in reduced product life. Derate internal power dissipation to achieve high MTTF. For guidance, refer to the heatsink data sheet. 3. Rating applies if the output current alternates between both output transistors at a rate faster than 60 Hz. 4. The PA05 must be used with a heatsink or the quiescent power may drive the unit to junction temperatures higher than 150C. CAUTION The PA05 is constructed from MOSFET transistors. ESD handling procedures must be observed. 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. APEX MICROTECHNOLOGY CORPORATION * 5980 NORTH SHANNON ROAD * TUCSON, ARIZONA 85741 * USA * APPLICATIONS HOTLINE: 1 (800) 546-2739 PA05 * PA05A TYPICAL PERFORMANCE GRAPHS 108&34611-:3&+&$5*0/ 143 E# 4."--4*(/"-3&410/4& $$QG $$QG , , , . '3&26&/$: ' )[ . m m . $$Q' m , , , '3&26&/$: G )[ , /03."-*;&%26*&4$&/5$633&/5 *2 9 8 10 7 065165$633&/5 *0 " $633&/5-*.*5 m m $"4&5&.1&3"563& 5$ $ 108&33&410/4& 45 #00 505"-4611-:70-5"(& 74 7 ' Q 8 7 7 4 26*&4$&/5$633&/5 108 $$ 5*.& U T 74 45 7 #00 $$ "7 3- $$Q' 3$ 747 )"3.0/*$%*45035*0/ , , , . '3&26&/$: ' )[ m 06516570-5"(&48*/( ' Q ' $$ Q . , , , '3&26&/$: ' )[ 0 m &95$0.1&/4"5*0/$"1"$*503$$ Q' 16-4&3&410/4& 06516570-5"(& 70 7 1 $0..0/.0%&3&+&$5*0/ $.3 E# $$QG 3- 3$ "7 $$QG $$QG $0..0/.0%&3&+&$5*0/ $$QG m $$QG m $$QG . m $$QG %*45035*0/ 5)% , , , . '3&26&/$:' )[ 1)"4&3&410/4& 3- 3$ 06516570-5"(& 70 711 01&/-001("*/ " E# $"4&5&.1&3"563& 5$ $ 4-&83"5&WT$0.1 /03."-*;&%$633&/5-*.*5 108&34611-:3&+&$5*0/ 4-&83"5&43 74 1)"4& */5&3/"-108&3%*44*1"5*0/ 1 8 70-5"(&%301'30.4611-: 74m70 7 108&3%&3"5*/( , . . , '3&26&/$: ' )[ . APEX MICROTECHNOLOGY CORPORATION * TELEPHONE (520) 690-8600 * FAX (520) 888-3329 * ORDERS (520) 690-8601 * EMAIL prodlit@apexmicrotech.com OPERATING CONSIDERATIONS PA05 * PA05A 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. CURRENT LIMIT The two current limit sense lines are to be connected directly across the current limit sense resistor. For the current limit to work correctly, pin 11 must be connected to the amplifier output side and pin 10 connected to the load side of the current limit resistor, RCL, as shown in Figure 1. This connection will bypass any parasitic resistances, RP formed by sockets and solder joints as well as internal amplifier losses. The current limiting resistor may not be placed anywhere in the output circuit except where shown in Figure 1. If current limiting is not used, pins 10 and 11 must be tied to pin 7. The value of the current limit resistor can be calculated as follows: 3G The output stage thermal protection circuit engages when junction temperatures reach approximately 175C. If the condition remains that caused the shutdown, the amplifier may oscillate in and out of shutdown, creating high peak power stresses reducing the reliability of the device. SHUTDOWN OPERATION To disable the output stage, pin 12 is connected to ground via relay contacts or via an electronic switch. The switching device must be capable of sinking 2mA to complete shutdown and capable of standing off the supply voltage +VS. See Figure 2 for suggested circuits. m-0(*$ , 4)65%08/ " 4)65%08/ m-0(*$ 2 3J */165 # $- 1" $- 31 '*(63&4)65%08/01&3"5*0/ 3$3- *-*.*53$- '*(63&$633&/5-*.*5 SAFE OPERATING AREA (SOA) The MOSFET output stage of this power operational amplifier has two distinct limitations: 1. The current handling capability of the MOSFET geometry and the wire bonds. 2. The junction temperature of the output MOSFETs. NOTE: The output stage is protected against transient flyback. However, for protection against sustained, high energy flyback, external fast-recovery diodes should be used. 40" % $ N T $ 5 $ $ $ 5 $ $ 5 $ $ % % 065165$633&/5 " U 4611-:50065165%*''&3&/5*"- 7 BOOST OPERATION With the VBOOST feature, the small signal stages of the amplifier are operated at higher supply voltages than the amplifier's high current output stage. +VBOOST (pin 9), and -VBOOST (pin 5) are connected to the small signal circuitry of the amplifier. +VS (pin 8) and -VS (pin 6) are connected to the high current output stage. An additional 5V on the VBOOST pins is sufficient to allow the small signal stages to drive the output transistors into saturation and improve the output voltage swing for extra efficient operation when required. When close swings to the supply rails is not required the +VBOOST and +VS pins must be strapped together as well as the -VBOOST and -VS pins. The boost voltage pins must not be at a voltage lower than the VS pins. COMPENSATION From an internal circuitry standpoint, shutdown is just a special case of current limit where the allowed output current is zero. As with current limit, however, a small current does flow in the output during shutdown. A load impedance of 100 ohms or less is required to insure the output transistors are turned off. Note that even though the output transistors are off the output pin is not open circuited because of the shutdown operating current. The external compensation components CC and RC are connected to pins 3 and 4. Unity gain stability can be achieved at any compensation capacitance greater than 470 pF with at least 60 degrees of phase margin. At higher gains, more phase shift can be tolerated in most designs and the compensation capacitance can accordingly be reduced, resulting in higher bandwidth and slew rate. Use the typical operating curves as a guide to select CC and RC for the application. This data sheet has been carefullyCORPORATION checked and is believed to be NORTH reliable, however, no responsibility is assumed for possible inaccuracies omissions. All specifications HOTLINE: are subject to1change notice. APEX MICROTECHNOLOGY * 5980 SHANNON ROAD * TUCSON, ARIZONA 85741 *orUSA * APPLICATIONS (800)without 546-2739 PA05U REV H AUGUST 2005 (c) 2005 Apex Microtechnology Corp.