PANASONIC AN5769

ICs for TV
AN5769
H/V convergence correction IC
■ Overview
Unit: mm
■ Applications
0.5±0.1
1.2±0.25
29.4±0.3
• DC control input 0 V to 5 V
• Output dynamic range 1.2 V to 3.8 V
• Maximum output current ±100 mA
2.54
■ Features
1.7±0.25
28.0±0.3
φ3.3
12
11
10
9
8
7
6
5
4
3
2
1
3.5±0.25
1.2±0.25
+0.1
5.8±0.25 7.9±0.3
0.45 –0.05
The AN5769 is an IC to correct convergence in
horizontal and vertical directions. It is possible to allow
±100 mA (max.) DC current flow by connecting a coil
between the output pins which operate with the reverse
phase each other.
• CRT monitors
1.7±0.25
HSIP012-P-0000
■ Block Diagram
3
4
+
7
In-1
−
8
6
5
GND3
2
VCC1 = 12 V 1
Bias
GND1
12
+
10
In-2
−
11
9
GND2
1
AN5769
ICs for TV
■ Pin Descriptions
Pin No.
Description
Pin No.
Description
1
Power supply 12 V (VCC1)
6
Output block GND (GND3)
2
Output block power supply 7 V (VCC2),
7
H-conv. positive output
protection resistor is required.
8
H-conv. negative output
Output block power supply 7 V (VCC3),
9
Output block GND (GND2)
protection resistor is required.
10
V-conv. positive output
4
H-conv. control input
11
V-conv. negative output
5
V-conv. control input
12
GND (GND1)
3
■ Absolute Maximum Ratings
Parameter
Supply voltage
Supply current
Power dissipation
*2
Operating ambient temperature
Storage temperature
*1
*1
Symbol
Rating
Unit
VCC1
13.5
V
VCC2
11.05
VCC3
11.05
ICC1
28
ICC2
150
ICC3
150
PD
1 171
mW
Topr
−25 to +75
°C
Tstg
−55 to +150
°C
mA
Note) 1. *1: Except for the operating ambient temperature and storage temperature, all ratings are for Ta = 25°C.
*2: The power dissipation shown is for the IC package at Ta = 75°C.
2. Pay attention to a breakdown to be caused by static electricity for pin 1.
3. Observe the following order of the supply power start-up:
• Turn-on order
First: Pin 2, pin 3 on (7 V) power supply
Second: Pin 1 on (12 V) power supply
• Turn-off order
First: Pin 1 off (12 V) power supply
Second: Pin 2, pin 3 off (7 V) power supply
■ Recommended Operating Range
Parameter
Supply voltage
2
Symbol
Range
Unit
VCC1
10.8 to 13.2
V
VCC2
6.0 to 9.0
VCC3
6.0 to 9.0
ICs for TV
AN5769
■ Electrical Characteristics at Ta = 25°C
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
Circuit current 1
ICC1
VCC1 = 12 V, VCC2 = VCC3 = 7 V
17
22
27
mA
Circuit current 2
ICC2
VCC1 = 12 V, VCC2 = VCC3 = 7 V

0
1
mA
Circuit current 3
ICC3
VCC1 = 12 V, VCC2 = VCC3 = 7 V

0
1
mA
Circuit voltage 7
V7−6
VCC1 = 12 V, VCC2 = VCC3 = 7 V
2.8
3.0
3.2
V
Circuit voltage 8
V8−6
VCC1 = 12 V, VCC2 = VCC3 = 7 V
2.8
3.0
3.2
V
Circuit voltage 10
V10−9
VCC1 = 12 V, VCC2 = VCC3 = 7 V
2.8
3.0
3.2
V
Circuit voltage 11
V11−9
VCC1 = 12 V, VCC2 = VCC3 = 7 V
2.8
3.0
3.2
V
− 0.15
0
+0.15
V
H-conv. output voltage 1
EH1
V7 −V8 at V4 = 2.5 V
H-conv. output voltage 2
EH2
V7 −V8 at V4 = 5 V
+2.3
+2.5
+2.7
V
H-conv. output voltage 3
EH3
V7 −V8 at V4 = 0 V
−2.7
−2.5
−2.3
V
V-conv. output voltage 1
EV1
V10 −V11 at V5 = 2.5 V
− 0.15
0
+0.15
V
V-conv. output voltage 2
EV2
V10 −V11 at V5 = 5 V
+2.3
+2.5
+2.7
V
V-conv. output voltage 3
EV3
V10 −V11 at V5 = 0 V
−2.7
−2.5
−2.3
V
• Design reference data
Note) The characteristics listed below are theoretical values based on the IC design and are not guaranteed.
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
∆EH/VCCH ∆E with VCC1 change 12 V to 13.2 V,
High-level H-conv. output
fluctuation with supply voltage
and VCC2, VCC3 from 7 V to 9 V
− 0.1

+0.1
V
Low-level H-conv. output
∆EH/VCCL ∆E with VCC1 change 12 V to 10.8 V,
fluctuation with supply voltage
and VCC2, VCC3 from 7 V to 6 V
− 0.1

+0.1
V
High-level V-conv. output
∆EV/VCCH ∆E with VCC1 change 12 V to 13.2 V,
fluctuation with supply voltage
and VCC2, VCC3 from 7 V to 9 V
− 0.1

+0.1
V
Low-level V-conv. output
∆EV/VCCL ∆E with VCC1 change 12 V to 10.8 V,
fluctuation with supply voltage
and VCC2, VCC3 from 7 V to 6 V
− 0.1

+0.1
V
H-conv. output fluctuation
with temperature
∆EH/Ta
∆E with Ta change from +25°C to +70°C
and with Ta change from +25°C to −20°C
− 0.1

+0.1
V
V-conv. output fluctuation
with temperature
∆EV/Ta
∆E with Ta change from +25°C to +70°C
and with Ta change from +25°C to −20°C
− 0.1

+0.1
V
3
AN5769
ICs for TV
■ Terminal Equivalent Circuits
Pin No.
Equivalent circuit
Description
1
VCC1
1
2
7V
10 Ω
2
To 10
DC voltage
(V)
Power supply 12 V (VCC1):
Power supply pin
Apply DC 12 V.
12
Output block power supply 7 V (VCC2):
Power supply pin for V-conv. output
Apply DC 7 V via protective resistor.
7
Output block power supply 7 V (VCC3):
Power supply pin for H-conv. output
Apply DC 7 V via protective resistor.
7
H-conv. control input:
Control input for H-conv.
Apply DC 0 V to 5 V.
(typ. = 2.5 V)

V-conv. control input:
Control input for V-conv.
Apply DC 0 V to 5 V.
(typ. = 2.5 V)

GND3:
Grounding pin of H-conv. output block
0
To 11
To 9
3
7V
10 Ω
3
To 7
To 8
To 6
4
VCC1
4
3 kΩ
GND1
5
VCC1
5
3 kΩ
GND1
6
To 3
To 7
6
4
To 8
ICs for TV
AN5769
■ Terminal Equivalent Circuits (continued)
Pin No.
Equivalent circuit
Description
7
To 3
DC voltage
(V)
H-conv. positive output:
Positive output pin for H-conv.
Outputs polarity as same as that of pin 4.
1.7 to 4.2
H-conv. negative output:
Negative output pin for H-conv.
Outputs polarity opposite to that of pin 4.
1.7 to 4.2
GND2:
Grounding pin of V-conv. output block
0
V-conv. positive output:
Positive output pin for V-conv.
Outputs polarity as same as that of pin 5.
1.7 to 4.2
V-conv. negative output:
Negative output pin for V-conv.
Outputs polarity opposite to that of pin 5.
1.7 to 4.2
7
To 6
8
To 3
8
To 6
9
To 2
To 10
To 11
9
10
To 2
10
To 9
11
To 2
11
To 9
12
12
GND1
GND1:
Grounding pin for 12V-system
0
5
AN5769
ICs for TV
12 V
20 µF
10 Ω
33 Ω
6.8 kΩ
5 kΒ
6.8 kΩ
5 kΒ
33 Ω
GND1 12
11
10
GND2 9
8
10 Ω
7V
6
7
GND3 6
5
4
VCC3 3
VCC2 2
VCC1
VCC1 1
■ Application Circuit Example