Crown PSA-2 Manual
Crown PSA-2 is a professional-grade stereo power amplifier that delivers exceptional audio performance and reliability for various applications. It boasts a robust design with a high-quality construction, ensuring durability and longevity. The PSA-2 features independent left and right channels, each capable of producing 250 watts of continuous power at 8 ohms or 400 watts at 4 ohms. It offers a wide frequency response, ranging from 20 Hz to 20 kHz, ensuring accurate and detailed audio reproduction.
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The gain stage is constructed with U1B whose output 1s routed to the low-pass filter using U3C. The low pass filter is standard as a 3-pole Butterworth type of 15K Hz. It also may be readily reconfigured. The input and output of the LP filter are routed to SWI10I for selection of the desired signal. The output of SWI101 is then input to the limiter-compressor. The limiter -compressor is constructed with deliberately restricted compression range. Compressors with large gain compression capability often exacerbate feedback in systems where the gain is increased only to be reduced by the compressor action. Should the input be reduced the gain will suddenly appear as the compressor recovers and feedback will result. The compressor is not a part of the circuit function until a control signal biases on U4, U4 is what is known as an operational transconductance amplifier or OTA. Sucha device converts a small input voltage into an output current which is proportional to the control current injected into pin 5. When Q1001s off, R117 acts to assure that no leakage current will enable any amount of compression. When Q100 is on, the current in R118 turns on U4 which becomes an additional feedback loop in parallel with R112 and decreases the net stage gain proportional to the current in R112. The input signal to U4 is provided by the divider R114 and R113. Since the OTA has an offset voltage like any other op-amp, this must be offset by a small DC voltage from R115 and R116, the offset adjustment. Failure to null this error would result in thumping of the compressor as it changed gain. C111 is used to decouple any DC from the module. The output is then routed to the jack switch in J21. If an input is applied to J21, the balanced input module 1s not part of the signal path. The control signal for the OTA 1s derived from a threshold detector (full-wave) composed of comparators U6A and U6B. Should the main input amplifier signal to the balanced gain stage exceed the thresholds established by the wiper of R7 orthe output of U2D, the comparators will signal Q100 via R120 to turn on. C112 acts to filter the control signal such that the turn-on of QI100 15 governed by Cl12 and RI120 while the turn-off is governed by C 112 and R119. This makes the attack time of the compressor much faster than the decay time, as is desired for minimum distortion operation of the system. The output of U2D 1s the inverted replica of the DC threshold reference on the wiper of R7, the threshold control. When R7 is set to maximum the only signals which have sufficient amplitude to reach the threshold are feedback error signals caused by overload ofthe PSA. All overloads will then result in compression of signals processed by the balanced input module. If R7 is decreased the thresold will pass below the overload values and into the signal range (remember that the signal here detected is a -lAth scale replica of the output). This 1-33 will allow the compressor to restrain the output power of the unit to protect fragile drivers, etc. Should stereo tracking of the compressors be desired the test points TPS and TP6 may be shorted together. This will cause the compressors to compress equally despite which channel may have initiated the gain reduction. If the action of the compressors is undesirable in an application, the OTA's U4 and US or comparators U6 may be removed from their sockets to prevent all compression. When making a hurried hook-up of a sound system it is often handy to know if the amplifier is attached to the loudspeakers that it is to drive, 1.€e., no open or shorted speaker cables. To make this test easier, the PSA-2 has a built in tone generator which provides inpulses at a S0Hz rate. As such the spectrum will excite tweeters or woofers with a signal that has very little power yet 1s quite distinctive and audible. The generator is constructed with UID which excites both signal channels with a pulse shaped by CI м conjunction with R111 and R211. UID 1s wired as an astable which has sufficient regeneration to oscillate only when SW is closed. |. PSA-2/PSA-2X Display The display of the PSA-2 is a combined set of indicators to show the state of the output stage supplies, power applied to the control supply, signal on the outputs and outputs overloaded (10C). Amber LED DI, powered by RI and the -24VDC unregulated supply is used to indicate power applied. Yellow LEDs D112 and D212 are used to indicate the standby condition of their respective channels. The following discussion will center around the channel | circuitry which uses a quad-comparator, U100. Channel 2 is of course identical. If a sufficient output signal is present to forward bias D107 and D108 with the current through R106 and overcome the bias of resistors R107-110 to U1I00C, then the monostable U100D will fire and turn on Q101. This will in turn light LED DIT (green) to indicate that a signal is present on the output of channel |. Should the signal cease, the current in R111 will act to charge C101 and reset UL00D. D109 1s used to assure proper resetting of the charge on C101 when the monostable resets. The use of such a monostable driven signal indicator makes even short transients highly visable. The operation of the 10C is very similar to the signal detector with the difference that U100B senses the output signal of the main input amplifier for excursions beyond approximately twelve peak volts. Diodes D100-104 in conjunction with zener D102 are used to sense such M crown overload indications. UIOOB in turn sets monostable U100A which turns on Q100. Should Q100 be powered, LED DIO6 (red) will indicate overload and steal the operating current from DIII to extinguish the signal indicator. This is to make the IOC more noticeable in that two lights will flash upon its operation. D110 is placed in series with DIII to insure the extinction of the green LED when the 1OC lights. 7-34 crown SECTION 8 SERVICE BULLETINS Periodically, a situation may arise where Crown will feel that it is necessary to change or update specific circuitry by the addition or subtraction of component parts. This information is automatically sent to all Crown Warranty Service Stations. It should be kept with this manual, preferably behind this page as indicated by the note at bottom. Should there be any question pertaining to these changes or updates, call or write the Crown Technical Service Department. PLACE ALL SERVICE UPDATES HERE a E are. o O SR2PSABOS2I80 SO SA2PSA2100280 speed Fan Modification © MODIFICATION PROCEDURES: + pe La ee e main drive printed circuit board) from 5.49K stm resistor TF h fr — Al amplifiers with sertal numbers in the above mentioned ranges that exhibit 3 a. blem should have this modificati A this pro ‚Ром РО | DAB FO nge Eu a E EA un hos Fi SER = LE et ВН es } 131947112787 23 a ) Ща ew pes Se 5 ВО ВЕ I hilo lee ruge Tes any € uesti eel a SOEUR EAR q © ri + o . В ост = SK/PSA2 Mein Sora Change May 6, 1900 uestions, plesse cell or write. UA RA a SAZPSAZOMIESI | SUBJECT: PSA-2 Output Device Change Mod - SERIAL NUMBERS AFFECTED: PSA-2 Amps in for service with (4718-0 or D5617-2 output devices vol IO do Caer mateo. pete ll To re nT
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