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STV9326STN/a2avaiVertical Deflection Booster for 3-App TV/Monitor Applications with 60-V Flyback Generator
E-STV9326 |ESTV9326ST,STN/a7000avaiVertical Deflection Booster for 3-App TV/Monitor Applications with 60-V Flyback Generator


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E-STV9326-STV9326
Vertical Deflection Booster for 3-App TV/Monitor Applications with 60-V Flyback Generator
DATASHEET STV9326 ertical Deflection Booster
for 3-A PP TV/Monitor Applications with 60-V Flyback Generator
Main Features
Power Amplifier Flyback Generator Stand-by Control Output Current up to 3 App Thermal Protection
Description

The STV9326 is a vertical deflection booster
designed for TV and monitor applications.
This device, supplied with up to 30 V, provides up to App output current to drive the vertical deflection
yoke.
The internal flyback generator delivers flyback
voltages up to 65V.
In double-supply applications, a stand-by state will
be reached by stopping the (+) supply alone.
Absolute Maximum Ratings STV9326 Absolute Maximum Ratings
Note:1. Usually the flyback voltage is slightly more than 2 x VS. This must be taken into consideration when
setting VS. Versus pin 4 V3 is higher than VS during the first half of the flyback pulse. Such repetitive output peak currents are usually observed just before and after the flyback pulse. This non-repetitive output peak current can be observed, for example, during the Switch-On/Switch-
Off phases. This peak current is acceptable providing the SOA is respected (Figure 8 and Figure 9). All pins have a reverse diode towards pin 4, these diodes should never be forward-biased. Input voltages must not exceed the lower value of either VS + 2 or 40 volts.
2Thermal Data
STV9326 Electrical Characteristics Electrical CharacteristicsS = 29 V, T AMB = 25°C, unless otherwise specified) In normal applications, the peak flyback voltage is slightly greater than 2 x (VS - V4 ). Therefore, (VS
- V4 ) = 30 V is not allowed without special circuitry. Refer to Figure 4, Stand-by condition.
Electrical Characteristics STV9326
Figure 1: Measurement of I1, I2 and I6
Figure 2: Measurement of V5H
Figure 3: Measurement of V3L and V5L
STV9326 Application Hints Application Hints
The yoke can be coupled either in AC or DC.
4.1 DC-coupled Application

When DC coupled (see Figure 4), the display vertical position can be adjusted with input bias. On
the other hand, 2 supply sources (VS and -VEE) are required.
A Stand-by state will be reached by switching OFF the positive supply alone. In this state, where
both inputs are the same voltage as pin 2 or higher, the output will sink negligible current from the
deviation coil.
4.1.1 Application Hints

For calculations, treat the IC as an op-amp, where the feedback loop maintains V1 = V7.
Figure 4: DC-coupled Application
Application Hints STV9326
4.1.1.1 Centering

Display will be centered (null mean current in yoke) when voltage on pin 7 is (R1 is negligible):
4.1.1.2 Peak Current

Example: for Vm =2 V, VM =5 V and IP =1A
Choose R1 in the1 Ω range, for instance R1=1Ω
From equation of peak current:
Then choose R2 or R3 . For instance, if R2 = 10 kΩ, then R3 = 15 kΩ
Finally, the bias voltage on pin 7 should be:
4.1.2 Ripple Rejection

When both ramp signal and bias are provided by the same driver IC, you can gain natural rejection
of any ripple caused by a voltage drop in the ground (see Figure 5), if you manage to apply the
same fraction of ripple voltage to both booster inputs. For that purpose, arrange an intermediate
point in the bias resistor bridge, such that (R8 / R7) = (R3 / R2), and connect the bias filtering
capacitor between the intermediate point and the local driver ground. Of course, R7 should be
connected to the booster reference point, which is the ground side of R1.
Figure 5: Ripple Rejection
7M Vm+------------------------22 R3+----------------------⎝⎠⎜⎟⎛⎞×=PM Vm– ()-----------------------------21xR3
-------------------×=23
-------P R1××M Vm–----------------------------- 2---==7M Vm+------------------------ 132
-------+
---- -------------× 7---- 1
2.5--------× 1.4V===
STV9326 Application Hints
4.2 AC-Coupled Applications

In AC-coupled applications (See Figure 6), only one supply (VS ) is needed. The vertical position of
the scanning cannot be adjusted with input bias (for that purpose, usually some current is injected
or sunk with a resistor in the low side of the yoke).
4.2.1 Application Hints

Gain is defined as in the previous case:
Choose R1 then either R2 or R3. For good output centering, V7 must fulfill the following equation:
Figure 6: AC-coupled Application
pM Vm–------------------------21 R3×----------------------×=73
-------⎝⎛ 12
-------+× 14 R5+----------------------⎠⎞ VS4 R5+ ()------------------------------M Vm+3×------------------------+ ⎝⎠⎜⎟⎛⎞=+
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