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HITACHI C2144S
Instrukcja Serwisowa


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  • Język: English
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Opis HITACHI C2144S Instrukcja Serwisowa

Kompletna instrukcja serwisowa w formie pliku PDF. Instrukcje serwisowe zazwyczaj zawierają schematy, diagramy drukowanych obwodów (PCB), schematy połączeń, schematy blokowe oraz katalog części. Instrukcje serwisowe są wykorzystywane glównie przez osoby naprawiające uszkodzony sprzęt.

Jeśli chcesz się dowiedzieć jak się obsługuje Twój telewizor, magnetowid, odtwarzacz mp3 itp. powinieneś raczej szukać instrukcji obsługi

Instrukcja jest dostępna w następujących językach: English

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When servicing note that the reservoir capacitor C809 can remain charged to high voltage for some time after the a.c. supply is removed. This can result in a shock hazard or damage to components whilst working on the receiver. Do not try to test Q801 base emitter junction if C809 is charged, your meter will turn on the transistor which will discharge the capacitor resulting in a collector emitter short circuit. Do not discharge C809 quickly with a screwdriver etc. The very high current produced can damage the internal connections of the capacitor causing failure at a later date. Remember when checking voltages to use a return path on the same side of TR802 for the Voltmeter earth to obtain the correct readings. As mentioned earlier the Start�up Management of MC44608 is as follows: The Vi pin 8 of IC800 is directly connected to the HV DC rail Vin. This high voltage current source is internally connected to the VCC pin and thus issued to charge the VCC capacitor. The VCC capacitor charge period corresponds to the Start�up phase. When the VCC voltage reaches 13V, the high voltage 9mA current source is disabled and the device starts working. The device enters into the switching phase. To help increase the application safety against high voltage spike on pin 8 a small wattage 1k_series resistor is inserted between the Vin rail and pin 8. After this start-up the IC can distinguish between the different modes of operation using the following technique: The LW latch is the memory of the working status at the end of every switching sequence. Two different cases must be considered for the logic at the termination of the SWITCHING PHASE: 1. No Over Current was observed 2. An Over Current was observed These two cases correspond to the two signals �NOC� in case of �No Over Current� and �OC� in case of Over Current. The effective working status at the end of the ON time memorized in LW corresponds to Q=1 for no over current, and Q=0 for over current. To enter the standby mode secondary side is reconfigured using D889 loop, this starts with the microprocessor �s pin 47 becomes high; as the standby port becomes high Q503 conducts and Q802 becomes off then D889 conducts and the high voltage output value becomes lower than the NORMAL mode regulated value. The shunt regulator IC118 is fully OFF. In the SMPS stand�by mode all the SMPS outputs are lowered except for the low voltage output that supply the wake�up circuit located at the isolated side of the power supply. In that mode the secondary regulation is performed by the Zener diode (D801) connected in parallel to the TL431. The secondary reconfiguration status can be detected on the SMPS primary side by measuring the voltage level at pin4 of TR802. In the SMPS stand�by mode the 3 distinct phases are: The SWITCHING PHASE: Similar to the Overload mode. The current sense clamping level is reduced. When VCC crosses the current sense section, the C.S. clamping level depends on the power to be delivered to the load during the SMPS stand�by mode. Every switching sequence ON/OFF is terminated by an OC as long as the secondary Zener diode voltage has not been reached. When the Zener voltage is reached the ON cycle is terminated by a true PWM action. The proper SWITCHING PHASE termination must correspond to a NOC condition. The LW latch stores this NOC status. The LATCHED OFF PHASE: The MODE latch is set. The START�UP PHASE is similar to the Overload Mode. The MODE latch remains in its set status (Q=1). The SWITCHING PHASE: The Stand�by signal is validated and the 200uA is sourced out of the Current Sense pin 2.

STANDBY OPERATION

MODE TRANSITION

SMPS SWITCH OFF

When the mains is switched OFF, so long as the electrolytic bulk capacitor provides energy to the SMPS the controller remains in the switching phase. Then the peak current reaches its maximum peak value, the switching frequency decreases and all the secondary voltages are reduced. The VCC voltage is also reduced. When VCC is less than 6,5V, the SMPS stops working. IC 501 controls all the functions of the receiver operated by the remote control and the front panel customer controls. It produces the on screen graphics, operates tuning, customers controls and engineering controls, and also incorporates all of the Teletext functions. It also controls the video processor, the audio processor, and the tuner. The circuits just mentioned are controlled via the I²C bus. Also IC501 controls the video source switching, vertical position adjustment and the vertical linearity adjustment via its ports. An external 8K EEprom is used by the micro. The EEprom comes fully programmed. The main clock oscillator is 4.0MHz crystal X501 on pins 50 and 51. Reset is provided on pin 2 via Q504. On switching on pin 2 becomes high and the controller gets reset which stays valid till a low signal comes on that pin.

MICROPROCESSOR IC501

CONTROLS

Command information from the infra red remote controller is fed through the sensor IC502 to pin 1 of the microprocessor. Operation of the customer front panel keys is detected by pin 8 that is an ADC (analogue to digital converter). Pressing a switch will connect the 5V to the ground through a particular resistor that determines the value of the voltage on pin8 at that instant. This obtained value is comprehended by the micro and the corresponding operation is performed. Refer to the following table:

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C2144S HITACHI
Instrukcja Obsługi

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