Yamaha C6 - P2200

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495.000 lire pre anno 1983  pre

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Finale P2200


Circuit System All-stage direct-coupled complementary. OCL triple push-pull circuit.

Dynamic Power 340W + 340W

Continuous Output 240W + 240W (both channels driven)

Frequency Characteristics 5Hz - 100kHz (+0 -1dB at 8 Ohms 1W)

Power Band Width 10Hz or less, 100kHz or more

Total Harmonic Distortion 0.01% or less (8 Ohms 1W - 200W, 20Hz - 20kHz)

Crosstalk 75dB (20KHz)

Cross Modulation Distortion 0.01% or less (8 Ohms 100W 70Hz: 7KHz=4:1) 0.1% or less (16 Ohms 100W)

Damping Factor 350 or more (8 Ohms 1KHz); 150 or more (8 Ohms 20KHz)

Signal-to-Noise Ratio 105dB (input 4.7K short-circuited); 115dB (input 4.7K short-circuited IHFA)

Input Sensitivity 0dBm + 0.5dBm (8 Ohms 100W)

Voltage Gain 31.2dB (volume maximum)

Input Impedance 25K Ohms (volume maximum); 25 - 33K Ohms (volume maximum to minimum)

Indication Range -50 to + 5dB (0dB = 100W/8 Ohms)

Indication Error +/- 0.5dB (-5 to +5dB); +/- 1.0dB (-20 to -5dB); +/- 2.0dB (-50 to -20dB)

Frequency Response +/- 1.0dB (40Hz to 20KHz)

Response Characteristics Rising - 10msec (1KHz 0dB 10msec - 1 +/- 0.5dB indicated); Dropping - 0.8sec (0dB - -20dB returning time)

Rated Voltage 220V 50/60Hz

Rated Power Consumption 1300W

Primary Current at Rated Operation 6.0A

Primary Fuse T4.0A 125V x 2





P2200, Yamaha's first professional power amplifier was introduced in 1976. With an output power of 240W per channel, the P2200 started Yamaha amplifiers' tradition of excellence in sound and well thought out design. P2200's design allowed access to the inside of the amplifier via the front panel. This design made maintenance and exchange of components parts possible without taking the amplifier out of the rack in case of failures. Uncoated binding posts were used on speaker output terminals to improve sonic quality. P2200 was replaced with the introduction of PC2002 in 1982, which soon became a global standard in professional amplifiers.


Simplified Circuits

Voltage amplifying stages (first stage and predrive stage) are all connected to the cascade for obtaining wide band, and Pc is distributed for improving reality.



NFB is applied at the final stage of voltage amplifying to enable low distortion and high stability at a relatively low level of 40dB.


Input Circuit

The input level control employs the metal-grazed volume having attenuation characteristics according to PC-50C of the BTS Code. The input impedance is designed in such a manner as to obtain 25K Ohms at its maximum value, and the required attenuation characteristics and impedance characteristics at a ATT load resistance of 100K Ohms.


Values of Capacitors

Values of Capacitors C101(A) and C201(B) located at the inlet of the driver circuit board are determined with ultra-bass range and shock noise protection in mind when the power switch is on. When the values are small, the peak occurs at low frequency, while when the values are relatively large, rise of TR101 is delayed due to a charging time constant when the power switch is turned on.


Predrive Stage

The Predrive Stage consists of transistors TR108, TR109(A), TR208, and TR209(B), being cascade connected. Fuse resistance is utilized for emitter resistance when determining gain and input impedance, thereby improving the safety factor of the Predrive Stage.


Output Stage

The Output Stage, which is darlington-connected to the driver, is a triple push-pull complementary OCL system, using the high power transistor of Vceo=200V and Pc Max=150W. The output signal picked up at midpoint between the plus and minus terminals is delivered to the speakers through L101(A) and L201(B).


Power Supply Circuit

The Power Supply transformer uses a toroidal iron core which is half the size and weight of the El type core with the same capacity, thus significantly reducing the size and weight.


Peak Meter Circuit

The use of high brid IC incorporating logarithmic compression, full-wave rectifying and peak detecting functions offers high stability and reliability for the peak meter. The response characteristics conform to DIN Standard; rise by the sue of the meter is -0.5dB at 1kHz for 10msec, and -1dB for 5msec.




Preampli C6