Universum FT-81015, Service Manual

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9
Pinning:
1. Non-inverting voltage input
2. Supply voltage LOW
3. Inverting voltage input
4. Ground, substrate
5. Black current measurement output
6. Supply voltage HIGH
7. Cathode transient voltage output
8. Cathode CD voltage output
9. Feedback voltage output
VERTICAL OUTPUT STAGE
TDA9379FA
The IC TDA9379FA is the vertical deflection booster circuit. Two supply voltages, +12V and –12V are needed to scan the
inputs VERT+ and VERT-, respectively. And a third supply voltage, +45V for the flyback limiting are needed. The vertical
deflection coil is connected in series between the output and feedback to the input.
Features:
n Power Amplifier
n Thermal Protection
n Output Current up to 2.6App
n Flyback Voltage up to 90V
n External Flyback Supply
Pinning:
1. Inverting Input
2. Supply Voltage
3. Flyback Supply
4. GND or Negative Supply
5. Output
6. Output Stage Supply
7. Non-inverting Input
MICROTEXT CONTROLLER
SDA30C264
The SDA30C264 is the microcontroller used with the Megatext IC. Its architecture and instruction set are based upon
that of the 8051 microcomputer. Like the 8051 it has many features which increase programming ease; extended internal
data memory-space, variable manipulation in internal data memory, free stack location in data RAM, 4 register banks,
special function registers, memory mapped I/O, individually addressable bits, and a Boolean processor which gives the
programmer the ability to improve the power of the software development. The IC produces the following input or output
control signals; AGC_CON, MODE_SW, L / L’, PIP_MODS, PIP_SEL, ON/OFF (stand-by), SC1..3_IN_AV (pin 8
information from 3 SCARTs), AFC, MUTE (to mute audio output IC), I2CEN.
The SDA30C26x family, a derivative of the SAB C501, is a member of family of single-chip computers, in which the
emphasis is no longer placed on purely numeric computational performance, but on application-specific controller
functions.
Architecture and instruction set are based upon that of the 8051 microcomputer. Like the 8051 has many features which
increase programming ease; extended internal data memory-space, variable manipulation in internal data memory, free
stack location in data RAM, 4 register banks, special function registers, memory mapped I/O, individually addressable
bits and a Boolean processor give the programmer the ability to improve the power of software development. Numerical
problems can be processed with binary as well as with BCD-arithmetic. The many bit handling instructions also
contribute to the computer’s efficiency as a controller, Extended memory is controlled by an 8-bit data and a (16+3)-bit
address bus without any additional devices such as latches or logic elements, even when all 512K of the program
address space is used. All this leads, in suitable applications, to a reduction in the peripheral hardware and to a
simplification of the software and thus to reduced development and component costs. The controller, specially developed
for entertainment electronic applications, can also be recommended where both lowest component costs and a large
production volume are prime requirements.
The SDA 30C36x family members contain a 1024 + 256-byte or a 2048 + 256-byte data memory (XRAM + RAM), two
independent 16-bit timers /-counters and a seven-source, four-priority-level, nested interrupt structure, on-chip oscillator
and clock circuits. The 30 digital I/O-lines include four 8-bit ports (P1 and P3 contain I/O-lines with multifunction options)
and one 2-bit port. One or two serial interfaces are included, one behaves like the 8051 UART, the other is a I²C Bus
interface (SDA 30C264 only)
The second multifunction port consists of port P1, which alternatively can be used as up to eight independent pulse width
modulated output channels (PWM). Controlled via special function registers, the PWM-circuitry provides flexibility in time
resolution and system configuration.
Specially the realisation of D/A-outputs using pulse width modulation will be a cost saving advantage in analog
applications.