Yamaha DRX-1 Service Manual page 73

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Owner's manual (56 pages)

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Enlarged version

Control Circuit

The control circuit exists of T7140, D6141, C2144 and

2145, C2147, R3147 and 3148.

This circuit is fed by supply voltage +Vb via R 3141. This

circuit controls the conduction time and the switching

frequency of the power switch circuit. It switches off the

MOSFET as soon as the voltage over Rsense reaches a

certain value. This value depends on the error voltage at

the emittor of T7140, which can be positive or negative (+/

- 0,66V). The voltage fed back by the regulation circuit

defines this error voltage.

Power Switch Circuit

This circuit comprises MOSFET 7125, Rsense formed by

R3133, 3134, 3135, 3136 and 3137, R3131, R3132,

D6146.

Diodes 6130, 6131 and 6132 protect the control circuit in

case of failure of the MOSFET.

Regulation Circuit

The regulation circuit comprises opto-coupler 7200, which

isolates the base voltage of transistor 7140 at the primary

side from a reference component 7251 at the secondary

side. The TL431(7251) can be represented by two

components:

• a very stable and accurate reference diode

• a high gain amplifier

2.5V

Fig. 2

TL431 will conduct from cathode to anode when the

reference is higher than the internal reference voltage of

about 2.5V. If the reference voltage is lower, the cathode

current is almost zero.

The cathode current flows through the LED of the opto-

coupler.

The collector current of the opto-coupler will adjust the

feedback level of the error voltage at the emittor of T7140.

Overload Protection Circuit

This circuit consists of R3145, C2143, a thyristor circuit

formed by T7141 and T7143, R3143 and R3142. When

the output is shortened, the thyristor circuit will start to

conduct and switch off the supply voltage over C2140.

This results in a switching off of the drain current of the

MOSFET 7125 and the output will be disabled. The start

circuit will try to start up the power supply again. If the

circuit is still shortened, the complete start and stop

sequence will repeat. The power supply comes in a hiccup

mode (is ticking).

Overvoltage Protection Circuit

This circuit consists of R3149, D6144, 6143, R3144,

C2142 and T7142.

When the regulation circuit is interrupted due to an error in

the control loop, the regulated output voltage will increase

(overvoltage). This overvoltage is sensed on the primary

winding 7-8.

When an overvoltage is detected, the circuit will start up

the thyristor circuit T7141-7143. The power supply will

come in a hiccup mode as long as the error in the control

loop is present.

Secondary Rectifier/Smoothing Circuit

There are 6 rectifier/smoothing circuits on the secondary

side.

Each voltage depends on the number of windings of the

transformer.

From these circuits a lot of voltages are derived and fed to

3 connectors. The following voltages are present at the

output: Connector 209

Functional use: to Digital board + Dvio board

1. +3V3(for dig pcb + DVio)

2. +3V3(for dig pcb + DVio)

3. +3V3(for dig pcb + DVio)

4. +3V3(for dig pcb + DVio)

5. GND(for dig pcb + DVio)

6. +12V(for dig pcb + DVio)

7. GND(for dig pcb + DVio)

8. GND(for dig pcb + DVio)

9. +5V(for dig pcb + DVio)

10. STBY control(for dig pcb + DVio)

11. GND(for dig pcb + DVio)

12. -5V(for dig pcb + DVio)

The +12V is switched off by the STBY_ctrl signal.

When the +12V is switched off, also the +3V3, +5V and -

5V are switched off. All these voltages are low drop

regulated.

Connector 0205

Functional use: to analogue board + display board + flap

motor 'STBY' indicates that the voltage will not be

switched off in the standby situation.

1. +12VSTBY(= +12V Standby, for display heating,

8Vstby)

2. +5VSTBY(= +5V Standby; general use)

3. -5NSTBY(= -5V Standby; neg. voltage for drivers)

4. VGNSTBY(= -32V Standby; for display grids)

5. +33STBY(= +33V Standby; for tuner)

6. FLYB(flyback pulse for power fail + measurement)

7. GNDA(Ground for the analogue board)

Connector 0207

Functional use: to engine

1. +3V3(for engine servo board)

2. +5V(for engine servo board)

3. GND(for engine servo board)

4. +4V6E(for engine analog part)

5. GND(for engine servo board)

6. -5V(for engine servo board)

7. GND(for engine motor currents)

8. +12V(for engine motor currents)

DRX-1

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Yamaha DRX-1 Service Manual page 73

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