STMICROELECTRONICS TDA1175P_04

TDA1175P
LOW-NOISE VERTICAL DEFLECTION SYSTEM
FEATURES SUMMARY
■ COMPLETE VERTICAL DEFLECTION
SYSTEM
■
LOW NOISE
■
SUITABLE FOR HIGH DEFINITION
MONITORS
■
ESD PROTECTED
Figure 1. Package
DESCRIPTION
The TDA1175P is a monolithic integrated circuit in
POWERDIP16 plastic package. It is intended for
use in black and white and colour TV receivers.
Low-noise makes this device particularly suitable
for use in monitors.
The functions incorporated are: synchronization
circuit, oscillator and ramp generator, high power
gain amplifier, flyback generator, voltage regulator.
POWERDIP16
(Plastic Package)
Figure 2. Pin Connections
RAMP OUTPUT
1
16
RAMP GENERATOR
SUPPLY VOLTAGE
2
15
COMPENSATION
FLYBACK
3
14
AMP. INPUT
GROUND
4
13
GROUND
GROUND
5
12
GROUND
POWER AMPLIFIER OUTPUT
POWER AMPLIFIER
SUPPLY VOLTAGE
REGULATED VOLTAGE
6
11
OSCILLATOR
7
10
SYNC. INPUT
8
9
HEIGHT ADJUSTMENT
REV. 2
April 2004
1/13
TDA1175P
Figure 3. Block Diagram
+ VS
C4
FREQ
P1
8
TDA1175P
11
DA
3
2
7
C9
RH
VOLTAGE
REGULATOR
OSCILLATOR
FLYBACK
GENERATOR
POWER
AMPLIFIER
6
C1
RG
YOKE
C8
SYNC
CIRCUIT
10
SYNC
RAMP
GENERATOR
BUFFER
STAGE
15
PREAMPLIFIER
C5
4
5
12 13
9
16
1
LINEARITY
14
RD
C2
TABS
HEIGHT
C7
RE
P2
RA
P3
RB
RC
C3
C6
RF
Table 1. Absolute Maximum Ratings
Symbol
VS
V6, V7
V14
Parameter
Value
Unit
Supply Voltage at Pin 2
35
V
Flyback Peak Voltage
60
V
+ 10
– 0.5
V
2
A
Power Amplifier Input Voltage
IO
Output Peak Current (non repetitive) at t = 2ms
IO
Output Peak Current at f = 50Hz, t ≤ 10µs
2.5
A
IO
Output Peak Current at f = 50Hz, t > 10µs
1.5
A
I3
Pin 3 DC Current at V6 < V2
100
mA
I3
Pin 3 Peak to Peak Flyback Current for f = 50Hz, tfly ≤ 1.5ms
1.8
A
I10
Pin 10 Current
± 20
mA
Power Dissipation at at Ttab = 90°C
4.3
W
1
W
– 40 to 150
°C
Value
Unit
PTOT
TSTG , Tj
Power Dissipation at Tamb = 70°C (free air) (1)
Storage and Junction Temperature
Table 2. Thermal Data
Symbol
Parameter
Rth (j-tab)
Thermal Resistance Junction-pin Max.
12
°C/W
Rth (j-amb)
Thermal Resistance Junction-ambient Max.
80
°C/W(1)
Note: 1. Obtained with tabs soldered to printed circuit with minimized copper area.
2/13
TDA1175P
ELECTRICAL CHARACTERISTICS
(Tamb = 25°C, unless otherwise specified)
Table 3. DC CHARACTERISTICS
(Refer to the test circuits, VS = 35V)
Symbol
Parameter
Test Conditions
Min.
Typ.
Max.
Unit
Fig.
I2
Pin 2 Quiescent Current
I3 = 0
7
14
mA
5
I7
Pin 7 Quiescent Current
I6 = 0
8
17
mA
5
–I11
Oscillator Bias Current
V11 = 1V
0.1
1
µA
4
–I14
Amplifier Input Bias Current
V14 = 1V
1
10
µA
5
–I16
Ramp Generator Bias Current
V16 = 0
0.02
0.3
µA
4
–I16
Ramp Generator Current
I9 = 20µA, V16 = 0
20
21.5
µA
5
Ramp Generator Non-linearity
∆V16 = 0 to 12V, I9 = 20µA
0.2
1
%
5
35
V
∆I 16
---------I 16
18.5
VS
Supply Voltage Range
V1
Pin 1 Saturation Voltage to
Ground
I1 = 1mA
1
14
V
V3
Pin 3 Saturation Voltage to
Ground
I3 = 10mA
1.5
2.5
V
4
V6
Qiuescent output Voltage
Vs = 10V, R1 = 1kΩ, R2 = 1kΩ
4.1
4.4
4.7
V
4
Vs = 35V, R1 = 3kΩ, R2 = 1kΩ
8.2
8.8
9.4
V
4
– I6 = 0.1A
0.9
1.2
V
6
– I6 = 0.8A
1.8
2.2
V
6
I6 = 0.1A
1.4
2.1
V
7
I6 = 0.8A
2.8
3.1
V
7
6.5
6.7
6.9
V
5
6.6
6.8
7
V
5
1
2
mV/V
5
2.27
2.35
V
V6L
V6H
Output Saturation Voltage to
Ground
Output Saturation Voltage to
Supply
10
V8
Regulated Voltage at Pin 8
V9
Regulated Voltage at Pin 9
I9 = 20µA
∆V 8 ∆V 9
------------ ------------∆V S ∆V S
Regulated Voltage Drift with
Supply Voltage
∆Vs = 10 to 35V
Amplifier Input Reference
Voltage
V10 ≤ 0.4V
V14
2.20
3/13
TDA1175P
Table 4. AC CHARACTERISTICS
(Refer to the AC test circuit, VS = 22V, f = 50Hz)
Symbol
Test Conditions
Min.
IY = 1APP
Typ.
Max.
Unit
Fig.
mA
8
mA
8
IS
Supply Current
I10
Sync. Input Current (positive or
negative)
V6
Flyback Voltage
IY = 1APP
45
V
8
tfly
Flyback Time
IY = 1APP
0.7
ms
8
Peak to Peak Output Noise
Pin 11 Connected to GND
18
mVpp
8
Free Running Frequency
(P1 + R1) = 300kΩ
C9 = 0.1 µF
Hz
8
Hz
8
Hz
8
VON
fO
fOPER
140
0.5
Operating Frequency Range
36
2
30
43.5
10
120
Synchronization Range
I10 = 0.5mA, C9 = 0.1µF
(P1+R1) = 300kΩ
∆f
---------∆V S
Frequency Drift with Supply
Voltage
VS = 10 to 35V
0.00
5
Hz/V
∆f
-----------∆T ab
Frequency Drift with tab
Temperature
Ttab = 40 to 120°C
0.01
Hz/°C
∆f
4/13
Parameter
14
8
8
TDA1175P
DC TEST CIRCUITS
Figure 6.
Figure 4.
3
+ VS
+VS
I3
V3
7
2
2
I4
7
10
TDA1175P
6
11
11
9
I8
1κΩ
- I9
1V
1V
16
TABS
TDA1175P
6
R1
14
14
TABS
V4
- I12
V4L
R2
8V
4V
Figure 5.
Figure 7.
+VS
I2
+ VS
I5
2
TDA1175P
8
V6
- I12
11
14
TDA1175P
- I10
1V
6
TABS
TABS
V7
V4H
7
14
9
16
100kΩ
11
2
7
I4
1V
5/13
TDA1175P
Figure 8. AC Test and Application Circuit for Large Screen B/W TV Set 10Ω/20mH/1APP
VS = 22V
0.1µF
470µF
1N4001
TABS
100µF
7
0.1µF
2
3
3.3Ω
6
220kΩ
100pF
5.6kΩ
Yoke
Ry = 10Ω
Ly = 20mH
560Ω*
15
SYNC.
INPUT
1000µF
470pF
10
5.6kΩ
TDA1175P
14
10µF
22kΩ
1
11
P1
100kΩ
R1
100kΩ
8
9
16
47kΩ
220kΩ
1.8kΩ
100kΩ
0.1µF
C9
0.1µF
120kΩ
1Ω
910kΩ
0.1µF
*on application only
6/13
TDA1175P
Figure 9. Typical Application Circuit for VGA Monitor (RY = 10Ω, LY = 20mH, IY = 0.8APP)
C9
C10 560pF
3.3nF
R12
R13
3.3Ω
220kΩ
C11
0.1µF
VS
(26V)
C1
0.1µF
C2
1000µF
35V
15
D1
1N4007
2
C8
22µF
35V
6
Y1
YOKE
TDA1175P
R8
10
1
11
P3
50kΩ
C4
0.15µF
8
9
16
R2
82kΩ
4
5
C6
0.1µF
12 13
47kΩ
R9
5.1kΩ
V.LIN
R6
56kΩ
R10
0.82Ω
R4
1MΩ
P1
100kΩ
C7
0.1µF
V.FREQ
R3
240kΩ
R14
220µF
1/2W
14
3
R5
200kΩ
C12
470µF
50V
R7
27kΩ
7
C3
100µF
35V
R1
3.3kΩ
C5
1.8µF
R11
2.7kΩ
P2
220kΩ
V. SIZE
7/13
TDA1175P
Figure 10. P.C. Board and Components Layout of the Circuit of Figure 9 (1:1 scale)
V-SIZE
V-FREQ
C9
C12
R12
C18
C6
P2
R18
P1
R6
R9
C2
R11
R2
GND
C4
VS
C11
R1
R10
C1
D1
C8
Y1
R8
C3
IC1
R14
P3
R7
V.LIN
R8
R4
C7
C6
R6
R
Table 5. Bill of Material
Item
Qty
Reference
Part
1
4
C1, C6, C7, C11
0.1µF
2
1
C2
1000µF 35V
3
1
C3
100µF 35V
4
1
C4
0.15µF
5
1
C5
1.8nF
6
1
C8
22µF 35V
7
1
C9
3.3nF
8
1
C10
560pF
9
1
C12
470µF 50V
10
1
D1
1N4007
11
1
IC1
TDA1175P
12
1
P1
100kΩ POT
13
1
P2
220kΩ POT
14
1
P3
50kΩPOT
8/13
Item
Qty
Reference
Part
15
1
R1
3.3kΩ
16
1
R2
82kΩ
17
1
R3
240kΩ
18
1
R4
1MΩ
19
1
R5
200kΩ
20
1
R6
56kΩ
21
1
R7
27kΩ
22
1
R8
47kΩ
23
1
R9
5.1kΩ
24
1
R10
0.82Ω
25
1
R11
2.7kΩ
26
1
R12
220kΩ
27
1
R13
3.3Ω
28
1
R14
220Ω 1/2W
29
1
Y1
YOKE
TDA1175P
MOUNTING INSTRUCTION
The Rth (j-a) can be reduced by soldering the GND
pins to a suitable copper area of the printed circuit
board (Figure 11) or to an external heatsink (Figure 12).
The diagram of Figure 13 shows the maximum dissipable power Ptot and the Rth (j-a) as a function of
the side "I" of two equal square copper areas having a thicknessof 35µ (1.4 mils).
During soldering the pins temperature must not
exceed 260°C and the soldering time must not be
longer than 12 seconds.
The external heatsink or printed circuit copper
area must be connected to electrical ground.
Figure 11. Example of P.C. Board Copper Area
COPPER AREA 35µ THICKNESS
Figure 13. Maximum Power Dissipation and
Junction-ambient Thermal Resistance versus
"I"
G-3558
Ptot
(W)
Rth
(˚C/W)
4
80
Rth j - amb
3
60
2
40
Ptot (Tamb = 70˚C)
1
20
0
0
0
10
20
30
40
l (mm)
Figure 14. Maximum Allowable Power
Dissipation versus Ambient Temperature
G-3559/2
Ptot
WIT
S-3181
4
H
IT
H IN
W
P.C. BOARD
AT
FINI
HE
TE H
NK
Rt
SINK
NG
VI
EAT
HA
2
h
=
25
17.0 mm
3
SI
Figure 12. External Heatsink Mounting
Example
AIR
/W
EE
˚C
FR
1
0
11.9 mm
-50
0
50
100
Tamb(˚C)
38.0 mm
S-3474
9/13
TDA1175P
PART NUMBERING
Table 6. Order Codes
10/13
Part Number
Package
Temperature Range
TDA1175P
POWERDIP16
-25 to 85 °C
TDA1175P
PACKAGE MECHANICAL
Table 7. POWERDIP16 - Mechanical Data
millimeters
inches
Symbol
Typ
a1
0.51
B
0.85
Min
Max
Typ
Max
0.020
1.4
b
0.033
0.5
b1
Min
0.055
0.020
0.38
0.5
D
0.015
0.020
20
0.787
E
8.8
0.346
e
2.54
0.100
e3
17.78
0.700
F
7.1
0.280
i
5.1
0.201
L
3.3
Z
0.130
1.27
0.050
I
b1
L
a1
Figure 15. POWERDIP16 - Package Dimensions
b
Z
B
e
E
e3
D
9
1
8
F
16
Note: Drawing is not to scale
11/13
TDA1175P
REVISION HISTORY
Table 8. Revision History
12/13
Date
Revision
Description of Changes
August-1995
1
First Issue
14-Apr-2004
2
Stylesheet update. No content change.
TDA1175P
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of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted
by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject
to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not
authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.
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All other names are the property of their respective owners
© 2004 STMicroelectronics - All rights reserved
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