PowerAmp Design COMPACT POWER OP AMP Rev E KEY FEATURES LOW COST HIGH VOLTAGE 00 VOLTS HIGH OUTPUT CURRENT 5 AMPS 50 WATT DISSIPATION CAPABILITY 00 WATT OUTPUT CAPABILITY 0.63 HEIGHT SIP DESIGN APPLICATIONS LINEAR MOTOR DRIVE HIGH VOLTAGE INSTRUMENTATION SEMICONDUCTOR TESTING TEST EQUIPMENT DESCRIPTION The compact operational amplifier is constructed with surface mount components to provide a cost effective solution for many industrial applications. The SIP design is only 0.63 high and provides clearance for those applications where circuit boards are mounted side by side in a card cage. The exceeds the performance of monolithic amplifiers while having a similar height dimension. User selectable external compensation tailors the amplifier s response to the application requirements. Programmable current limit is built-in. The amplifier circuitry is built on a thermally conductive but electrically insulating substrate. No BeO is used in the. The resulting module is a small, high performance simple solution for many industrial applications. Mounted in EVAL54 evaluation kit PowerAmp Design COMPACT POWER OP AMP
CIRCUIT & CONNECTIONS EQUIVALENT CIRCUIT -IN +IN PINOUT & CONNECTIONS IL CC Cc CC2 OUT +VS -VS R S VIEW FROM COMPONENT SIDE PHASE COMPENSATION GAIN Cc SLEW V/uS 220pF 4 > 3 00pF 0 > 0 47pF 4 TO FEEDBACK & LOAD 2 3 4 5 6 7 8 + C C2 C3 C4 0.uF 8uF + 8uF 0.uF PowerAmp Design COMPACT POWER OP AMP 2
COMPACT POWER OP AMP ABSOLUTE MAXIMUM RATINGS SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS SUPPLY VOLTAGE, +Vs to Vs 00V INPUT VOLTAGE +Vs to Vs OUTPUT CURRENT, peak 7A, within SOA DIFFERENTIAL INPUT VOLTAGE 20V POWER DISSIPATION, internal, DC 50W TEMPERATURE, pin solder, 0s 300 C TEMPERATURE, junction 2 50 C TEMPERATURE RANGE, storage 40 to 05 C OPERATING TEMPERATURE, case 40 to 05 C PARAMETER TEST CONDITIONS MIN TYP MAX UNITS INPUT OFFSET VOLTAGE 3 mv OFFSET VOLTAGE vs. temperature Full temperature range 20 50 V/ O C OFFSET VOLTAGE vs. supply 20 V/V BIAS CURRENT, initial 3 00 pa BIAS CURRENT vs. supply 0. pa/v OFFSET CURRENT, initial 50 pa INPUT RESISTANCE, DC 00 G INPUT CAPACITANCE 4 pf COMMON MODE VOLTAGE RANGE +Vs 0 V COMMON MODE VOLTAGE RANGE Vs+0 Vs+.5 V COMMON MODE REJECTION, DC 0 28 db NOISE 00kHz bandwidth, k R S 0 V RMS GAIN OPEN LOOP R L = 0k C C =00pF 08 db GAIN BANDWIDTH PRODUCT @ MHz C C =00pF 2 MHz PHASE MARGIN Full temperature range 45 degree OUTPUT VOLTAGE SWING I O = 5A +Vs 7 +Vs 6 V VOLTAGE SWING I O = 5A Vs+7 Vs+6 V CURRENT, continuous, DC 5 A SLEW RATE, A V = 0 C C = 00pF 0 2 V/ S SETTLING TIME, to 0.% 2V Step, C C = 00pF 6 S RESISTANCE No load, DC 8 POWER SUPPLY VOLTAGE 0 40 50 V CURRENT, quiescent 5 7 ma THERMAL RESISTANCE, AC, junction to case 5 Full temperature range, f 60Hz 2.3 RESISTANCE, DC junction to case Full temperature range 2.5 TEMPERATURE RANGE, case 40 05 NOTES:. Unless otherwise noted: T C = 25 O C, compensation Cc = 470pF, DC input specifications are value given, power supply voltage is typical rating. 2. Derate internal power dissipation to achieve high MTBF. 3. Doubles for every 0 O C of case temperature increase. 4. +Vs and Vs denote the positive and negative supply voltages. 5. Rating applies if the output current alternates between both output transistors at a rate faster than 60Hz. O C/W O C/W O C PowerAmp Design COMPACT POWER OP AMP 3
OPERATING CONSIDERATIONS SAFETY FIRST The operating voltages of the are potentially deadly. When developing an application circuit it is wise to begin with power supply voltages as low as possible while checking for circuit functionality. Increase supply voltages slowly as confidence in the application circuit increases. Always use a hands off method whereby test equipment probes are attached only when power is off. CURRENT LIMIT The current limiting function of the is externally programmable. See Figure. The sense voltage for current limit is 0.65V. Thus: IL 0.65V Where I L is the value of the limited current and R S is the value of the current limit sense resistor. In addition, the sense voltage has a temperature coefficient approximately equal to 2.2mV/ o C case temperature. IN R IN 2 3 IL RS R F Figure OUT 6 MOUNTING THE AMPLIFIER In most applications the amplifier must be attached to a heat sink. Spread a thin and even coat of heat sink grease across the back of the and also the heat sink where the amplifier is to be mounted. Push the amplifier into the heat sink grease on the heat sink while slightly twisting the amplifier back and forth a few times to bed the amplifier into the heat sink grease. On the final twist align the mounting holes of the amplifier with the mounting holes in the heat sink and finish the mounting using 2-56 screw and a #2 stainless steel internal tooth lock washer. The lock washer helps to electrically connect the substrate to the heat sink (that should be grounded). Torque the screws to 2.2 in-pound (0.248 N meter) maximum. Do not rely on the screw pressure to squeeze out any excess heat sink grease as this will likely only bend the substrate at the R S R L corners. See Dimensional Information for a detailed drawing. It is recommended that the heat sink be grounded to the system ground. PHASE COMPENSATION The must be phase compensated. The compensation capacitor, C C, is connected between pins 4 and 5. The compensation capacitor must be an NPO type capacitor rated for the full supply voltage (00V). On page 2, under Amplifier Pinout and Connections, you will find a table that gives recommended compensation capacitance value for various circuit gains and the resulting slew rate for each capacitor value. Consult also the small signal response and phase response plots for the selected compensation value in the Typical Performance Graphs section. A compensation capacitor less than 47pF is not recommended. EVALUATION KIT An EVAL54 evaluation kit is available that is helpful in developing your application circuit. The kit includes a heat sink, input and output jacks, bypass capacitors and a selection of current limiting resistor values as well as a bread-boarding area to configure the amplifier according to your application circuit requirements. The kit helps you rapidly build and evaluate your application circuit without having to construct your own board and research and purchase suitable components. The PCB pre-wires critical connections for power supply bypassing and ground connections thus minimizing mistakes in wiring and optimizing circuit layout. PowerAmp Design COMPACT POWER OP AMP 4
TYPICAL PERFORMANCE GRAPHS OFFSET VOLTAGE,Vos (mv) OUTPUT SWING FROM +Vs OR -Vs, V TOTAL POWER DISSIPATION, P D (W) 50 40 30 20 0 POWER DERATING 0-40 -20 0 20 40 60 80 00 20 CASE TEMPERATURE, T C ( O C) 2..8.5.2 0.9 0.6 0.3 0-0.3-0.6-0.9-40 -20 0 20 40 60 80 00 20 CASE TEMP, O C 6 5.5 5 4.5 OFFSET VOLTAGE DRIFT OUTPUT SWING FROM SUPPLY RAILS T C =25 O C, -OUTPUT T C =25 O C, +OUTPUT NORMALIZED QUIESCENT CURRENT, I Q (%) NORMALIZED QUIESCENT CURRENT, IQ(%) DISTORTION, % 04 02 00 98 96 QUIESCENT CURRENT VS SUPPLY VOLTAGE 94 20 40 60 80 00 TOTAL SUPPLY VOLTAGE, (V) 60 40 20 00 QUIESCENT CURRENT VS TEMPERATURE 80-40 -20 0 20 40 60 80 00 20 CASE TEMPERATURE, O C 0. Av = -0 Cc = 00pF 8 LOAD Vs = V 7.6W HARMONIC DISTORTION 76W PowerAmp Design COMPACT POWER OP AMP 4 0 2 3 4 5 OUTPUT AMPS, A 0.0 30 00 000 k 0000 0k 30k FREQUENCY, F(Hz) 5
TYPICAL PERFORMANCE GRAPHS 20 SMALL SIGNAL RESPONSE -90 SMALL SIGNAL PHASE RESPONSE 00-05 Cc=220pF OPEN LOOP GAIN, A(dB) OUTPUT VOLTAGE SWING, V(p-p) 80 60 40 20 Cc=220pF Cc=47pF Cc=00pF 0 0 00 000 k 000000000000000 0k 00k M 0000000 0M FREQUENCY, F(Hz) 00 90 80 70 60 50 40 30 20 0 000 k 0000 0k 00000 00k 500k FREQUENCY, F(Hz) POWER RESPONSE CC =220pF CC =00pF CC=47pF PHASE, ( O ) TEMP OUTPUT, VOLTS (V) -20-35 -50-65 Cc=47pF Cc=00pF -80 30k 00000 00k 000000 M 2M FREQUENCY, F(Hz) 2.6 2.4 2.2 2.8.6.4.2 TEMPERATURE OUTPUT 0.8-40 -20 0 20 40 60 80 00 20 SUBSTRATE TEMPERATURE, O C PowerAmp Design COMPACT POWER OP AMP khz sine clipped by current limit into 00Ω load 20kHz sine into 8Ω load, G=-0,C C =00pF 6
PERFORMANCE GRAPHS CONTINUED Pulse Response, Negative to Positive, 250Ω Load G=-0, Cc=00pF Pulse Response, Positive to Negative, 250Ω Load G=-0, Cc=00pF PowerAmp Design COMPACT POWER OP AMP 7
SAFE OPERATING AREA 0 SAFE OPERATING AREA 00 S OUTPUT CURRENT, Io (A) 0.3 6 DC PULSE 3% DUTY CYCLE 00mS 0mS 0 00 SUPPLY TO OUTPUT DIFFERENTIAL,Vs-Vo (V) SAFE OPERATING AREA ms PowerAmp Design COMPACT POWER OP AMP 8
DIMENSIONAL INFORMATION TS 8 PowerAmp Design COMPACT POWER OP AMP 0