STMICROELECTRONICS TDA2270

TDA2270
TV VERTICAL DEFLECTION OUTPUT CIRCUIT
.
..
..
..
DRIVES VERTICAL DEFLECTION WINDINGS DIRECTLY
HIGH EFFICIENCY
INTERNAL FLYBACK GENERATOR
THERMAL PROTECTION
ON-CHIP VOLTAGE REFERENCE
HIGH OUTPUT CURRENT (2.2 A peak)
16-LEAD POWERDIP PLASTIC PACKAGE
DIP16
(Plastic package)
ORDER CODE : TDA2270
PIN CONNECTIONS
15
NC
3
14
NC
GND
4
13
GND
GND
5
12
GND
NC
6
11
NC
OUTPUT
OUTPUT STAGE
SUPPLY
7
10
8
9
GND
REFERENCE
VOLTAGE
1
16
2270-01.EPS
2
NON-INVERTING
INPUT
INVERTING INPUT
SUPPLY VOLTAGE
FLYBACK
GENERATOR
DESCRIPTION
The TDA2270 is a high efficiency monolithic output
stage for vertical deflection circuits in TVs and
monitors. Driving the vertical windings directly, the
device contains a power amplifier, flyback generator, voltage reference and thermal protection circuit.
The TDA2270 is supplied in a 16-pin DIP with the
four center pins connected together and used for
heatsinking.
BLOCK DIAGRAM
+VS
1
8
2
FLYBACK
GENERATOR
15
POWER
AMP.
7
16
YOKE
REFERENCE
VOLTAGE
12 13 10
4
5
2270-02.EPS
9
THERMAL
PROTECTION
September 1992
1/7
TDA2270
ABSOLUTE MAXIMUM RATINGS
Parameter
Value
Unit
Vs
Supply Voltage (pin 1)
35
V
V7 , V8
Flyback Peak Voltage
60
V
V2
V15, V16
Voltage at Pin 2
+ Vs
Amplifier Input Voltage
+ Vs, – 0.5
Io
Output Peak Current (non repetitive, t = 2 ms)
Io
V
2
A
Output Peak Current at f = 50 Hz, t ≤ 10 µs
2.2
A
Io
Output Peak Current at f = 50 Hz, t > 10 µs
1.2
A
I2
Pin 2 DC Current at V7 < V1
50
mA
I2
Pin 2 Peak to Peak Flyback Current at f = 50 Hz, tfly ≤ 1.5 ms
2
A
4.3
1
W
W
– 40 to 150
°C
Ptot
Tstg, Tj
Tpins ≤ 90 °C
Tamb = 70 °C
Total Power Dissipation at
Storage and Junction Temperature
2270-01.TBL
Symbol
Symbol
Value
Unit
Rth j–case
Thermal Resistance Junction-case
Parameter
Max
14
°C/W
R th j–amb
Thermal Resistance Junction–ambient
Max
80
°C/W
2270-02.TBL
THERMAL DATA
* Obtained with the GND pins soldered to printed circuit with minimized copper area.
ELECTRICAL CHARACTERISTICS
(refer to the test circuits, VS = 35 V, Tamb = 25oC unless otherwise specified)
2/7
Parameter
Test Conditions
Min.
Typ.
Max.
Unit
Fig.
I1
Pin 1 Quiescent Current
I2 = o, I7 = 0, V16 = 3 V
8
16
mA
1a
I8
Pin 8 Quiescent Current
I2 = 0, I7 = 0, V16 = 3 V
16
36
mA
1a
I15
Amplifier Input Bias Current
V15 = 1 V
– 0.1
–1
µA
1a
– 0.1
–1
µA
1a
1
V
1c
Vs = 35 V, Ra = 39 kΩ
Vs = 15 V, Ra = 13 kΩ
18
7.5
V
V
1d
1d
I16
Amplifier Input Bias Current
V16 = 1 V
V2L
Pin 2 Saturation Voltage to GND
I2 = 20 mA
V7
Quiescent Output Voltage
V7L
Output Saturation Voltage to GND
I7 = 0.7 A
0.7
1
V
1c
V7H
Output Saturation Voltage to Supply
– I7 = 0.7 A
1.3
1.8
V
1b
V9
2.2
V
1a
2
mV/V
1a
Reference Voltage
I9 = 0
∆V9
∆VS
Reference Voltage Drift versus Supply
Voltage
Vs = 15 to 30 V
R9
Reference Voltage Output Resistance
2.1
kΩ
Tj
Junction Temperature for Thermal Shut
Down
140
°C
1
2270-03.TBL
Symbol
TDA2270
Figure 1 : DC Test Circuits
2270-04.EPS
Figure 1b : Measurement of V7H
2270-03.EPS
Figure 1a : Measurement of I1 ; I8 ; I15 ; I16 ; V9 ;
∆V9/∆VS ; R9
S1 : (a) I15 ; (b) I16, I7 and I8.
S2 : (a) I7 and I8 ; (b) I16, (c) I15.
S3 : (a) I15, I16, I7, I8, I9 and V9 ; (b) R9
2270-06.EPS
Figure 1d : Measurement of V7
2270-05.EPS
Figure 1c : Measurement of V2L ; V7L
S1 : (a) V2L ; (b) V7L
3/7
TDA2270
2270-07.EPS
Figure 2 : Application Circuit
2270-08.TIF
Figure 3 : PC Board and Component Layout (1 : 1 scale)
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TDA2270
COMPONENTS LIST FOR TYPICAL APPLICATIONS (refer to the fig. 2)
B/W TV
10 Ω / 20 mH / 1 App
90° TVC
15 Ω / 30 mH / 0.82 App
Unit
RT1
10
10
kΩ
R1
10
12
kΩ
R2
5.6
5.6
kΩ
R3
15
18
kΩ
R4
6.8
5.6
kΩ
R5
1
1
Ω
R6
330
330
Ω
R7
1.5
1.5
Ω
D1
1N 4001
1N 4001
–
C1
0.1
0.1
µF
C2 el.
470/25 V
470/25 V
µF
C3 el.
220/25 V
220/25 V
µF
C4
0.22
0.22
µF
C5 el.
1000/25 V
1000/16 V
µF
C6 el.
10/16 V
10/16 V
µF
2270-04.TBL
Component
Parameter
B/W TV
10 Ω / 20 mH / 1 App
90° TVC
15 Ω / 30 mH
Unit
Vs – Supply Voltage
20
25
V
Is – Current
145
125
mA
tfly – Flyback Time
0.75
0.7
ms
* Ptot – Power Dissipation
1.8
2.05
W
* Rth c– a – Heatsink
14
12
°C/W
Tamb
60
60
°C
Tj max
130
130
°C
to
20
20
ms
Vi
2.5
2.5
Vpp
V7 – Flyback Voltage
42
52
Vp
5/7
2270-05.TBL
TYPICAL PERFORMANCE
TDA2270
MOUNTING INSTRUCTIONS
The Rth j-amb of the TDA 2270 can be reduced by
soldering the GND pins to a suitable copper area
of the printed circuit board (fig. 4) or to an external
heatsink (fig. 5).
The diagram of figure 6 shows the maximum dissipable power P tot and the Rth j-amb as a function of
the side”l” of two equal square copper areas having
a thickness of 35 µ (1.4 mils).
Figure 4 :
Example of P.C. Board Copper Area
which is Used as Heatsink
Figure 5 :
External Heatsink Mounting Example
Figure 6 :
Maximum Dissipable Power and Junction to Ambient Thermal Resistance
versus Side ”l”
Figure 7 :
Maximum Allowable Power Dissipation versus Ambient Temperature
During soldering the pins temperature must not
exceed 260 °C and the soldering time must not be
longer than 12 seconds.
6/7
2270-10.EPS
2270-12.EPS
2270-11.EPS
2270-09.EPS
The external heatsink or printed circuit copper area
must be connected to electrical ground.
TDA2270
I
b1
L
a1
PACKAGE MECHANICAL DATA
16 PINS - PLASTIC DIP
b
B
e
E
Z
e3
D
9
1
8
a1
B
b
b1
D
E
e
e3
F
i
L
Z
Min.
0.51
0.77
Millimeters
Typ.
Max.
1.65
Min.
0.020
0.030
0.5
0.25
Inches
Typ.
Max.
0.065
0.020
0.010
20
8.5
2.54
17.78
0.787
0.335
0.100
0.700
7.1
5.1
3.3
0.280
0.201
DIP16.TBL
Dimensions
PM-DIP16.EPS
F
16
0.130
1.27
0.050
Information furnished is believed to be accurate and reliable. However, SGS-THOMSON Microelectronics assumes no responsibility
for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result
from its use. No licence is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics.
Specifications mentioned in this publication are subject to change without noti ce. This publication supersedes and replaces all
information previously supplied. SGS-THOMSON Microelectronics products are not authorized for use as critical components in life
support devices or systems without express written approval of SGS-THOMSON Microelectronics.
 1994 SGS-THOMSON Microelectronics - All Rights Reserved
Purchase of I2C Components of SGS-THOMSON Microelectronics, conveys a license under the Philips
I2C Patent. Rights to use these components in a I2C system, is granted provided that the system confo rms to
the I2C Standard Specifications as defined by Philips.
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