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1. Operating Voltage:

U(B) = 230V   50Hz ... 60Hz   /   U(B) = 120V   50Hz ... 60Hz

2. Operating Voltage Deviation Range:

-30% .... +10%

3. 

 

Power Consumption

Driven with sine signal f = 1kHz

X1201 / P1201

Output Power

Idling Power Consumption

50 - 70 W

Maximum Power Consumption (RL=4

)

1870 W

1200 W

Nominal Power Consumption (RL=4

)

1730 W

1000 W

Standard Power Consumption (RL=4

)

590 W

100 W

Power Consumption at 1/8 of the Max. Output Power

720 W

156 W

Power Consumption  at 1/8 of the Max. Output Power
at 10 % Mains Overvoltage

870 W

180 W

4. Settings/Adjustments

4.1. IDLING CURRENT ADJUSTMENT
Connect a DC-voltmeter to the BIAS measuring points (on the printed board assembly 84194/2 / 84199/2, see
service connectors) and adjust the idling current via the trimmers VR101 / VR301 (on the printed board assembly
84194/1 /84199/1). Adjustment has to be performed for HOT / COLD U(DC) = 7.5mV and at normal room
temperature. If the power amplifier has previously been operated, it has to be given several hours of time for
regaining normal temperature.

4.2. 

 

FLOATING - SYMMETRY

Checking and setting the floating voltage symmetry has to be performed immediately after adjusting the idling
current.
Operate the power amplifier in idling condition. Measuring between the measuring points CNS1X.1 / CNS2X.5
and CNS1X.5 / CNS2X.5 with a DC-voltmeter, set the floating voltage symmetrical to GROUND via VR1 on the
printed board assembly 84194/1 (84199/1).
The absolute voltage value is not critical but the symmetry of the 

±

 floating voltage over GROUND.

Checking the set floating voltage is possibly by use of a DC-voltmeter and measuring between on the service
connector between CNS2X.3 and CNS2X.5 on the printed board assembly 84194/2 (84199/2) as well as on the pin
terminal between CN10.1 and CN10.2/3 on the printed board assembly 84194/1 (84199/1).
The measured DC voltage value should be 0 volts.

4.3. VCA - OFFSET
Rhythmically open and short-circuit the pin contacts CNS2X.1 and CNS2X.2 on the printed board assembly
84194/2 (84199/2). Use VR100 to adjust the power amplifier output to their minimum offset value (with
oscilloscope to minimal peak value or to the audible minimum volume of the interfering pulse).

5. Function Test

5.1. OUTPUT – Offset Voltage
DC-measurement at the loudspeaker outputs with U(DC) 

 

±

10mV.

5.2. LIMITER

5.2.1.  Attenuation Test
Power amplifier driven with a 1 kHz signal up to U(A) = 69 V (without load). Increase the input voltage by
10dB. The LIMITER LED lights and the output voltage ascents by approximately 2dB to approximately 85 V
while slightly clipping. The distortion rate of the limited signal is at THD = 1.0 ... 1.5%. Further increasing the
input signal up to a value of +21dBu should not result in remarkably higher clipping.

5.2.2. Attack and Release Times
Test has to be performed without load resistors connected.
1.) Drive the power amplifier with a burst signal (f = 1kHz, 10 cycles, rate: 

 0.5 sec.) and U(E) = +16dBu at the

input.

Summary of Contents for MODULAR PRECISION Series

Page 1: ...P 1201 P 1202 MODULAR PRECISION SERIES SERVICE...

Page 2: ...d output power MBW 80kHz 1kHz 0 05 IMD SMPTE 60Hz 7kHz 0 08 DIM30 3 15kHz 15kHz 0 03 Frequency Response 1dB ref 1kHz 13 Hz 45 kHz Power Bandwith THD 1 ref 1kHz half power 4 10 Hz 50 kHz Input Impedanc...

Page 3: ...84194 2 84199 2 Main PCB 84194 3 84199 3 LED PCB 84194 4 84199 4 Testing Conditions unless differently stated Measuring tolerance X 1 5dB Measuring frequency f 1kHz Stated level values referred to U...

Page 4: ...1 on the printed board assembly 84194 1 84199 1 The absolute voltage value is not critical but the symmetry of the floating voltage over GROUND Checking the set floating voltage is possibly by use of...

Page 5: ...OAR protection does not react in case of mains undervoltage repeat the test with parallel connecting a 0 5 resistor instead of a 1 5 6 SHORT CIRCUIT CURRENT LIMITING TEST drive each channel with a bur...

Page 6: ...0 03 3 15kHz 15kHz 9 Frequency Response Linear Frequency Response mind border frequencies Lower border frequency Upper border frequency 3dB fu 10Hz fo 85kHz 1dB fu 13Hz fo 45kHz 10 Noise Interference...

Page 7: ...1 Input module Approx 18 mA MRx Front modules Approx 70 mA 13 Dimensions and Weight Power amplifier Weight Dimensions in mm X1201 P1201 17kg 483 x 132 5 x 385 5 14 Input Connector Pin Assignment CN7...

Page 8: ...0 n c 3 POWER ON 4 5V 21 HOTCUR 68 4 GND D 5 COLDCUR 22 n c 5 GND D 6 KA1 23 HOTCUR 68 6 5V 7 LIM OUTA 24 n c 7 5V 8 KA2 25 AMPB2 68 8 LED STANDBY 9 n c 26 GND D 10 KA3 27 GND D 11 POWER ON 28 GND D 1...

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Page 14: ...4POL 0 420M ribbon cable assy 4 way 356663 KABEL KONFEKT 14POL 0 250M ribbon cable assy 14 way 359962 FB P 1201 BED front panel P 1201 359963 RW P1201 230V BED rear panel P1201 351359 DEC 3HE EV LACK...

Page 15: ...mp pcb assy CNAC1 343516 FL STECKER 4 8 0 5 connector 4 8mm faston CNAC2 343516 FL STECKER 4 8 0 5 connector 4 8mm faston CNAC3 343516 FL STECKER 4 8 0 5 connector 4 8mm faston CNAC4 343516 FL STECKER...

Page 16: ...nF 275V C0016 329021 KO KER 0 10MF 100V 20 cap ceramic 100nF C0017 329021 KO KER 0 10MF 100V 20 cap ceramic 100nF C0018 327366 KO EL 4 700MF 50V BIP cap bip electr 4 7uF 50V C0019 329021 KO KER 0 10MF...

Page 17: ...120pF C0119 301458 KO EL 2 200MF 63V cap electrolytic 2 2uF 63V C0120 356605 KO FOL 0 100MF 250V 5 cap mylar 100nF C0123 335787 KO KER 15 0PF 100V 2 cap ceramic 15pF C0124 335787 KO KER 15 0PF 100V 2...

Page 18: ...EGURTET diode 1N 4002 D0115 304360 DIODE 1N 4007 GEGURTET diode 1N 4002 D0116 301254 DIODE 1N 4148 AXIAL diode 1N 4148 D0117 301254 DIODE 1N 4148 AXIAL diode 1N 4148 D0309 304360 DIODE 1N 4007 GEGURTE...

Page 19: ...22 301236 TRANS BD 241 B transistor BD 241 B Q0023 307150 TRANS BC 337 25 TO 92 transistor BC 337 25 00010 338868 TRANS MJE 340 transistor MJE 340 00010 338869 TRANS MJE 350 transistor MJE 350 Q0100 3...

Page 20: ...348409 TRANS 2SC 4793 transistor 2SC 4793 Q0323 351981 TRANS MJL 3281 A transistor MJL 3281 A Q0324 351982 TRANS MJL 1302 A transistor MJL 1302 A Q0325 328889 TRANS MJ 15003 transistor MJ 15003 Q0326...

Page 21: ...R0385 348456 WI DR 2X 0 22 OHM 5 00W 5 resistor 2x0 22 Ohm 5watt R0388 348456 WI DR 2X 0 22 OHM 5 00W 5 resistor 2x0 22 Ohm 5watt R0391 348456 WI DR 2X 0 22 OHM 5 00W 5 resistor 2x0 22 Ohm 5watt R0394...

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