TDA9110 STMicroelectronics, TDA9110 Datasheet - Page 15

TDA9110

Manufacturer Part Number

TDA9110

Description

Deflection Processor 32-Pin SPDIP

Manufacturer

STMicroelectronics

Datasheet

1.TDA9110.pdf (29 pages)

Specifications of TDA9110

Package

32SPDIP

Operating Temperature

0 to 70 Â°C

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OPERATING DESCRIPTION

I - GENERAL CONSIDERATIONS

I.1 - Power Supply

The typical values of the power supply voltages

operation is obtained for V

13.2V and V

In order to avoid erratic operation of the circuit

during transient phase of V

the value of V

the circuit are inhibited if V

typically.

Similarly,V

until V

power on reset).

In order to have a verygood powersupply rejection,

the circuit is internally supplied by several voltage

references(typical value : 8V).Two of thesevoltage

references are externally accessible, one for the

vertical and one for the horizontal part. If needed,

these voltage references can be used (if I

less than 5mA). It is necessary to filter the a.m.

voltage references by external capacitors con-

nected to ground, in order to minimize the noise

and consequently the ”jitter” on vertical and hori-

zontal output signals.

I.2 - I

TDA9110 belongs to the I

ily. Instead of being controlled by DC voltages on

dedicated control pins, each adjustment can be

done via the I

The I

input. Thegeneral functionand thebus protocolare

specified in the Philips-bus data sheets.

The interface (Data and Clock) is TTL-level com-

patible. The internal threshold level of the input

comparator is 2.2V (when V

to 50ns) are filtered by an integrator and the clock

speed is limited to 400kHz.

The data line (SDA) can be used bidirectionally(i.e.

in read-mode the IC clocks out a reply information

(1 byte) to the micro-processor).

The bus protocol prescribes always a full-byte

transmission. The first byte after the start condition

is used to transmit the IC-address(7 bits-8C) and

the read/write bit (0 write - 1 read).

I.3 - Write Mode

In write mode the second byte sent contains the

subaddress of the selected function to adjust (or

controlsto affect)and the third byte the correspond-

ing data byte.It is possible to send more than one

data byte to the IC. If after the third byte no stop or

start condition is detected, the circuit increments

automaticallyby one the momentary subaddressin

and V

C Control

C bus is a serial bus with a clock and a data

reaches 4V (see I

are 12V and 5V respectively. Perfect

is monitored and internally set-up

C Interface.

between 4.5 and 5.5V.

is monitored and the outputs of

C controlled device fam-

C Control Table for

switching on, or off,

between 10.8 and

is 5V). Spikes (up

is less than 7.5V

LOAD

the subaddress counter (auto-increment mode).

So it is possible to transmit immediately the next

data bytes without sending the IC address or

subaddress.It can be useful to reinitialize the whole

controls very quickly (flash manner). This proce-

dure can be finished by a stop condition.

The circuit has 16 adjustment capabilities : 2 for the

Horizontal part, 4 for the Vertical, 2 for the E/W

correction, 2 for the Dynamic Horizontal phase

control,2 for the Moire options, 3 for the Horizontal

and Vertical Dynamic Focus and 1 for the HSize

amplitude control.

15 bits are also dedicated to several controls

(ON/OFF, Synchro Priority, Detection Refresh and

Xray reset).

I.4 - Read Mode

During the read mode the second byte transmits

the reply information.

The reply byte contains the Horizontal and Vertical

Lock/Unlock status, the Xray activation status and,

the Horizontaland Vertical polarity detection.It also

contains the Synchro detection status which is

used by the MCU to assign the Synchro priority.

A stop conditionalways stops all the activities of the

bus decoder and switches to high impedance both

for the data and the clock line (SDA and SCL).

See I

I.5 - Synchro Processor

TheinternalSynchroProcessor allowsthe TDA9110

to accept any kind of input synchro signals :

- separated Horizontal & Vertical TTL-compatible

- composite Horizontal &Vertical TTL-compatible

I.6 - Synchro Identification Status

The MCU can choose via the I

priority thanks to the system identification status

provided by the TDA9110. The extracted Vertical

synchro pulse is available when this identification

status has been received and when the 12V is

supplied. Even in Power managementmode the IC

is able to inform the MCU that synchrosignals were

detected due to its 5V supply. We recommend to

use the device as following : first, refresh the syn-

chro detection by I

det and Vdet by I

Sync priority choice should be :

Vext

Yes

det

synchro signals,

synchro signals.

C Subaddress and control tables.

H/V

Yes

det

Yes

det

C read.

Subaddress 03

Sync priority

C, then check the status of H/V

Separated H & V

Composite TTL

H&V

C the synchro

Synchro type

Comment

TDA9110

15/29

TDA9110 STMicroelectronics, TDA9110 Datasheet - Page 15

TDA9110

Specifications of TDA9110

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