Mitsubishi M62502FP Pwm ic for the synchronized deflection system control Datasheet

L Yificatioon.change.
A
I N pec ct t
MITSUBISHI (Dig./Ana. INTERFACE)
ls
bje
fina e su
LIM
ot a its ar
E
n
R is is c lim
M62502FP
P ces;Thametri
i
r
Not me pa
So
PWM IC for the synchronized deflection system control
GENERAL DESCRIPTION
PIN CONFIGURATION(TOP VIEW)
The M62502 is a controller for a deflection system of CRT display
monitors. It performs a stable PWM control over a wide fluctuation
of external signals, thanks to the built-in trigger mode oscillator.
The IC is suitable for an application to a high voltage drive and a
horizontal output correction of CRT monitors because of its
following circuits and functions;
• Under Voltage Lock Out circuit (UVLO)
• Soft-start function
PWM OUT 1
2
TIN
3
15 VREF
M62502FP
Vcc
16 GND
Cosc 4
Cagc1 5
FEATURES
• PWM output synchronized with external signals
• Wide PWM control frequency
15kHz to 150kHz
• Soft start function
• Low voltage malfunction protection circuit
start Vcc > 9V
stop Vcc < 6V
Ragc 6
14 DTC
13 FB
12 IN –
11 IN +
Cagc2 7
10 Duty
2fh 8
9 DOUT
16P2N-A
Outline
APPLICATION
• C R T display monitor
BLOCK DIAGRAM
GND
VREF
16
15
VCC
DTC FB
14
IN-
IN+
Duty
Adj
12
11
10
13
VREF
DRIVE
OUTPUT
9
Duty
cont
Amp
Comp
Wind comp
Comp
UVLO
GEN
AGC
GEN
1
PWM OUT
2
3
4
5
VCC
TIN
COSC
CAGC1
(1/7)
6
RAGC
AGC
7
CAGC2
Edge
detection
8
2fh
L Yificatioon.change.
A
I N pec ct t
MITSUBISHI (Dig./Ana. INTERFACE)
ls
bje
fina e su
LIM
ot a its ar
E
n
R is is c lim
M62502FP
P ces;Thametri
i
r
Not me pa
So
PWM IC for the synchronized deflection system control
Terminal Number and The facility
PIN No.
Symbol
Functional Description
1
PWM OUT
PWM output
2
VCC
Power supply
3
TIN
Trigger input
4
COSC
Setting oscillating frequency
5
Cagc1
AGC setting
6
RAGC
AGC Current setting resistor connected to this terminal
7
Cagc2
AGC setting
8
2fh
Double velocity reshuffle
9
DOUT
Drive output
10
Duty
Duty regulation
11
IN+
Positive input of Op-Amp.
12
IN-
Negative input of Op-Amp.
13
FB
Output of Op-Amp.
14
DTC
Dead time control (Soft start function)
15
VREF
Output of reference voltage (5V)
16
GND
Ground
Absolute Maximum Rating (Ta=25°C,unless otherwise noted)
Symbol
Parameter
Conditions
Ratings
Unit
VCC
Supply voltage
15
V
VOUT
Output voltage
15
V
IOUT
Output current
±100
mA
Vd
Drive output voltage
15
V
Id
Drive output current
20
mA
VICM
Error amplifier input common
mode voltage range
-0.3 to VCC
V
VID
Error amplifier input common
mode voltage
VCC
V
Pd
Power dissipation
650
mW
K
Thermal derating ratio
5.2
mW/°C
Topr
Operating ambient temperature
Tstg
Storage temperature
Ta≥25°C
(2/7)
-20 to +75
°C
-40 to +150
°C
L Yificatioon.change.
A
I N pec ct t
MITSUBISHI (Dig./Ana. INTERFACE)
ls
bje
fina e su
LIM
ot a its ar
E
n
R is is c lim
P ces;Thametri
i
r
Not me pa
So
M62502FP
PWM IC for the synchronized deflection system control
ELECTRICAL CHARACTERISTICS (Vcc=12V, TIN=40kHz, Ta=25°C, unless otherwise noted)
Block
Reference
voltage
section
Error
Amp.
Oscillator
PWM
output
section
UVLO
section
Duty adj
section
Symbol
VCC
ICC
VREF
Reg-in
Reg-L
TCVREF
IREF MAX
IS
VIO
IIb
IIO
VICM
AV
SR
VOR
Isink
Isourse
fOSC
VOSC H
VOSC L
VTIN H
VTIN L
Vsat L
Vsat H
VTH ON
VTH OFF
IDuty
Test conditions
Range of power supply
Circuit current
Reference voltage
Input regulation
Load regulation
Min
4.80
Maximum reference current
Short-circuit current
Input offset voltage
Input bias current
Input offset current
70
Slew rate
Output voltage range
Output sink current
Output source current
Oscillation frequency
High level of TIN
Low level of TIN
IO=100mA
IO=-100mA
ON threshold voltage
OFF threshold voltage
fh terminal current
fh reshuffle voltage
VDuty=2.5V
VDuty=3V
Id=10mA
VDO=12V
Vhf=5V
9.5
8.0
5.4
-6.5
-10
150
VCC
1.0
1.4
10.0
6.6
-
-
330
0.5VREF
V
mA
mA
kHz
V
V
V
V
V
V
V
V
µA
µsec
0.4
0.4VREF
(3/7)
0.7
10.5
9.0
6.0
-1.3
5.0
mA
mA
mV
nA
nA
V
dB
VREF-1.5
2.5
V
mA
V
mV
mV
V/µs
3.5
1.5
The oscillator waveform lower limit voltage
UVP terminal input current
110
4
15
Unit
%/°C
100
VCC-2
0.3
10
The oscillator waveform bound voltage
Input offset voltage
5.20
10
20
7
Open loop transmission gain
Output saturation voltage H
Max
14
25
5.00
1.0
2.0
0.01
-30
-30
-100
-100
-0.3
Common mode input voltage range
Output saturation voltage L
Limits
Typ
VCC OFF
Output off mode
Reference voltage thermal coefficient
Input current
Duty max Maximum ON duty
VUVPO
IIN UVP
fh reshuffle Ifh
section
Vfh
UVP
section
Parameter
1.0
430
0.6VREF
V
µA
µA
V
L Yificatioon.change.
A
I N pec ct t
MITSUBISHI (Dig./Ana. INTERFACE)
ls
bje
fina e su
LIM
ot a its ar
E
n
R is is c lim
P ces;Thametri
i
r
Not me pa
So
M62502FP
PWM IC for the synchronized deflection system control
Terminal functional description and equivalent circuit
Terminal No.
1
2
Symbol
PWM OUT
Vcc
Function and internal circuit
PWM output
• PWM output synchronized with the TIN input is available.
• Output "H" level = 10.5V typ
(The output current:-100mA,Vcc=12V)
• Output "L" level = 0.7V Typ
(The output current:+100mA,Vcc=12V)
2
Vcc
1
PWM
OUT
16
GND
Power supply
Vcc
15 VREF
2
Trigger input
• Frequency range
15kHz to 150kHz
• It is taken on a leading edge.
TIN
TIN input waveform
3
TIN
3
MIN 2.5V
MAX 1.0V
16
4
Cosc
5
Cagc1
GND
A saw-wave oscillator timing setting (Cosc)
• A saw-wave is generated by connecting the capacitor between pin4 and GND.
• Recommended capacitor value is 1000pF.
Setting AGC sensitivity (Cagc)
• The sensitivity of AGC circuit is set by connecting the capacitor between pin5
and GND.
• Recommended capacitor value is 1µF.
VREF
Cosc
15
4
~
~
~
GND
(4/7)
16
5
Cagc1
L Yificatioon.change.
A
I N pec ct t
MITSUBISHI (Dig./Ana. INTERFACE)
ls
bje
fina e su
LIM
ot a its ar
E
n
R is is c lim
P ces;Thametri
i
r
Not me pa
So
Terminal No.
M62502FP
PWM IC for the synchronized deflection system control
Symbol
Function and internal circuit
VREF
6
Ragc
AGC current setting
• The resistor is connected between pin6 and GND for
setting AGC current flowing in DOUT circuit.
Ragc 6
VREF
Setting AGC sensitivity
• The sensitivity of AGC is set by connecting
the capacitor between pin7 and GND.
• Recommended capacitor value is 1µF.
7
Cagc2
Cagc2 7
2fh
~
8
Frequency selection
VREF
• The frequency of drive output is alternated
between just(fh) and doubled(2fh) one.
2fh 8
OPEN, GND : fh
VREF
: 2fh
~ ~
Drive output
• Open collector circuit.
9
VREF
9 DOUT
DOUT
VREF
The duty adjustment of drive output
10
Duty
Duty
(5/7)
10
L Yificatioon.change.
A
I N pec ct t
MITSUBISHI (Dig./Ana. INTERFACE)
ls
bje
fina e su
LIM
ot a its ar
E
n
R is is c lim
P ces;Thametri
i
r
Not me pa
So
Terminal No.
M62502FP
PWM IC for the synchronized deflection system control
Symbol
Function and internal circuit
Vcc
11
IN+
2
Positive input of Op-Amp (IN+)
Negative input of OP Amp (IN-)
12
IN-
IN+ 11
12 IN-
Output of Op-Amp (FB)
Dead time control (DTC)
• A soft start function is available during power-on by adopting
a time constant.
13
FB
15
VREF
16
GND
DTC 14
Cosc
FB 13
14
4
DTC
PWM comparator section
Reference voltage terminal
• 5V is output via this terminal.
A current capability is 5mA.
15
Vcc
2
VREF
15 VREF
+
GND 16
16
GND
• Ground
(6/7)
L Yificatioon.change.
A
I N pec ct t
MITSUBISHI (Dig./Ana. INTERFACE)
ls
bje
fina e su
LIM
ot a its ar
E
n
R is is c lim
M62502FP
P ces;Thametri
i
r
Not me pa
So
PWM IC for the synchronized deflection system control
M62502 application
IN-
IN+
R2
VR1
C2
C3
R1
C5
C4
15
14
13
Vcc
R5
R4
D1
16
Duty
R3
12
11
DOUT
10
9
VCC
Duty
cont
Amp
VREF
Comp
Wind
comp
Comp
UVLO
GEN
AGC
GEN
AGC
Edge
detection
Vcc
1
2
3
4
5
Cosc Cagc1
PWM OUT
6
Ragc
7
8
Cagc2
2fh
TIN
C1
C1,C2
-----------
These capacitors are for stabilization of Vcc and VREF.
VR1
-----------
It is decided considering a current capability of VREF. (The capability is about 5mA.)
Recommended value is around 10kΩ
C3,D1
----------- They are for a soft start function. A time constant is decided considering VR1.
Cagc1,2 ----------- These capacitors are for stabilization of AGC circuit. A larger capacitor improves a
stability of the system, however a system response is degraded.
Recommended capacitor value is around 1µF.
Cosc
----------
This capacitor is for the saw-wave generation.
Recommended capacitor value is around 1000pF.
R1,R2,R3,R4 ----- They are for the gain setting of the error Amp. R2 should be several kΩ to dozens of kΩ
C4,C5
to set a voltage gain 20dB to 40dB at f = 1kHz, so that the feed back loop is stable.
When the voltage gain is too low, it causes jitter.
Recommended values of C4, C5 and R1 are ; C4 = dozens of pF to several hundreds pF,
C5 = several thousands pF to tens of thousands pF, R1 = dozens of kΩ to several
hundreds kΩ.
Ragc
----------- This resistor is for the AGC setting of DOUT. Recommended value is 27kΩ.
R5
----------- It is a pull-up resister of DOUT output, because DOUT is configured by the open
collector circuit. Recommended value is several kΩ.
(7/7)
Similar pages