MITSUBISHI M62500P

MITSUBISHI (Dig./Ana. INTERFACE)
M62500P/FP
SYNCHRONIZATION DEFLECTION SYSTEM CONTROL PWM IC
DESCRIPTION
The M62500 is a semiconductor integrated circuit designed and
PIN CONFIGURATION (TOP VIEW)
developed as a deflection control of the CRT display monitor.
The built-in trigger mode oscillator allows stable PWM control to be
gained against a wide range of change of external signals.
GND 1
24 VCC
VREF 2
23 DRIVE OUTPUT
Tin 3
The M62500 provides a low supply voltage output malfunction
preventive circuit (UVLO) and software start function optimum to
Delay Adj 4
horizontal output correction of monitor, high voltage drive and high
5
CAGC1
22 Phase Adj
21 Duty Adj
20 DOUBLE SPEED
SWITCH
19 RAGC
DTC 6
voltage regulator.
FEATURES
PWM output in synchronization with external signals
Wide range of PWM control frequency
IN1 (+) 7
18 CAGC2
IN1 (-) 8
17 IN2 (+)
FB1 9
16 IN2 (-)
COLLECTOR1 10
15kHz to 150kHz
15 FB2
OUT1 11
The PWM output phase is adjustable against external signals
14 COLLECTOR2
P.GND 12
13 OUT2
Soft start
Built-in low voltage output malfunction prevention circuit
Outline 24P4D (P)
24P2V-A (FP)
Start VCC>9V
Stop VCC<6V
APPLICATION
CRT display monitor
BLOCK DIAGRAM
VCC
DRIVE
OUTPUT
Phase
Adj
Duty
Adj
DOUBLE
SPEED
SWITCH
RAGC
CAGC2
IN2 (+)
IN2 (-)
24
23
22
21
20
19
18
17
16
15
14
9
10
11
FB2 COLLECTOR2 OUT2
13
PHASE
CONT
WIND
COMP
EDGE
DETECTION
(SWITCH)
DUTY
CONT
GEN
AGC
comp
OUTPUT START
START (VCC>9V)
STOP (VCC<6V)
GEN
AGC
VREF
VCC
DELAY
1
2
3
4
5
6
7
8
GND
VREF
Tin
Delay
Adj
CAGC1
DTC
IN1 (+)
IN1 (-)
( 1 / 11 )
FB1 COLLECTOR1 OUT1
12
P. GND
MITSUBISHI (Dig./Ana. INTERFACE)
M62500P/FP
SYNCHRONIZATION DEFLECTION SYSTEM CONTROL PWM IC
ABSOLUTE MAXIMUM RATINGS (Ta=25˚C, unless otherwise noted)
Symbol
VCC
VOUT
IOUT
Vd
Id
VICM
VID
Parameter
Supply voltage
Output voltage
Output current
Drive output voltage
Drive output current
Common mode input voltage range of
error amplifier
Common mode differential input voltage
of error amplifier
Pd
Power dissipation
K
Thermal derating
Topr
Tstg
Operating temperature
Storage temperature
Ratings
15
15
±150
15
20
Unit
V
V
mA
V
mA
-0.3 to VCC
V
VCC
V
P
FP
1400
1000
P
FP
11.2
8
-20 to +75
-40 to +125
mW
mW/°C
°C
°C
Note. For the polarity of current, the direction in which current flows to the IC is specified positive (+),
while the direction in which current flows out from the IC is specified to be negative (-).
( 2 / 11 )
MITSUBISHI (Dig./Ana. INTERFACE)
M62500P/FP
SYNCHRONIZATION DEFLECTION SYSTEM CONTROL PWM IC
ELECTRICAL CHARACTERISTICS (VCC=12V, fIN=40kHz, Ta=25˚C, unless otherwise noted)
Block
Symbol
VCC
ICC
VCC ON
VCC OFF
VIO
IIb
IIO
VICM
AV
SR
VOR
Isink
Isource
VsatL
VsatH
VREF
Reg-in
Reg-L
TCVREF
IREF MAX
IS
IIN
VIN L
VIN H
IDelay
TD min
TD max
IDTC
Vth U
Vth L
TDuty
IDuty
Duty min
Duty max
Duty
IPhase
T2 min
T2 max
T2
Vsat D
ILD
Ifh
Vfh
Parameter
Range of power supply voltage
Dissipation current
Activation start voltage
Activation stop voltage
Input offset voltage
Input bias voltage
Input offset current
Common mode input range
Open loop gain
Through rate
Output voltage range 1)
Output sink current
Output source current
Output saturation voltage L
Output saturation voltage H
Reference voltage
Input stability
Load voltage
Temperature coefficient of reference voltage
Maximum reference current
Short-circuit current
Input current
"L" input voltage
"H" input voltage
Input current
Minimum delay time
Maximum delay time
Input current
Test conditions
Without signal
-100
-100
-0.3
70
IO=100mA
IO=-100mA
IREF=-5mA
VCC=7 to 14V IREF=-5mA
IREF=0 to -5mA
Ta=-20 to +75°C
VIN=5V
VDelay adj=0V
VDelay adj=3.0V
40
9
6.0
9.5
4.80
—
—
2.0
-0.6
—
10
—
Max.
14
70
10
6.6
7
100
VCC-2
110
4
VREF-1.5
0.7
10.5
5.00
1
2
0.01
-40
-70
140
—
—
-0.1
0.8
15
0.5
-10
1.4
5.20
10
20
200
0.6
—
—
1
—
2.0
0.65VREF 0.7VREF 0.75VREF
Lower limit voltage of saw tooth wave
0.28VREF 0.3VREF 0.32VREF
VDTC=2.5V
VDuty adj=2.5V
VDuty adj=2.5V
VPhase adj=2.5V
Minimum leading time of drive output
Minimum leading time of drive output
Leading time of drive output
Output saturation voltage
Output leak current
fh pin current
fh switching voltage
Limits
Typ.
0.3
10
Upper limit voltage of saw tooth wave
PWM output duty
Input current
Minimum duty
Maximum duty
Duty
Input current
Min.
VCC off
20
8
5.4
VPhase adj=1.0V
Id=10mA
VDO=12V
Vfh=5V
45
-6.5
—
80
45
-3.5
—
9
4.5
50
-1.3
10
95
50
-0.7
0.7
9.4
5.5
—
330
0.4VREF 0.5VREF
Note 1. Output must not be reversed with input of 0.
( 3 / 11 )
55
—
20
—
55
—
1.6
—
7.0
0.4
1
430
0.6VREF
Unit
V
mA
V
V
mV
nA
nA
V
dB
V/µs
V
mA
mA
V
V
V
mV
mV
%/°C
mA
mA
µA
V
V
µA
µs
µs
µA
V
V
%
µA
%
%
%
µA
µs
µs
µs
V
µA
µA
V
MITSUBISHI (Dig./Ana. INTERFACE)
M62500P/FP
SYNCHRONIZATION DEFLECTION SYSTEM CONTROL PWM IC
EXPLANATION OF TERMINALS
Pin No.
1
Symbol
GND
Function and peripheral circuit of pins
GND
VCC
2
VREF
5.0V reference voltage
External load of about 5mA can be taken out.
2
VREF
3
Tin
Trigger input
Read at the rising edge
S
3
Tin
Q
FF
R
VREF
4
Delay Adj
Delay adjustment
Delay of read trigger signal
VDelay : 0 to 3.0V
TDelay : 1µ to 10µsec
4
VREF
5
18
CAGC1
CAGC2
AGC capacitance
Connects capacitance between each pin
and GND and sets up AGC sensitivity
5
18
( 4 / 11 )
MITSUBISHI (Dig./Ana. INTERFACE)
M62500P/FP
SYNCHRONIZATION DEFLECTION SYSTEM CONTROL PWM IC
EXPLANATION OF TERMINALS (Cont.)
Pin No.
6
Symbol
DTC
Function and peripheral circuit of pins
6
Dead time control
(PWM comparator + pin)
VCC
7
8
16
17
IN1 (+)
IN1 (-)
IN2 (-)
IN2 (+)
17
Air amplifier input pin
7
8
16
VCC
9
15
9
15
FB1
FB2
Air amplifier output
(PWM comparator + input pin)
10 14
10
11
12
13
14
COLLECTOR1
OUT1
P.GND
OUT2
COLLECTOR2
PWM output section
11 13
12
VREF
19
RAGC
AGC current setup
Connects resistance between pin 19
and GND and sets up AGC current on the OUT2 side.
19
( 5 / 11 )
MITSUBISHI (Dig./Ana. INTERFACE)
M62500P/FP
SYNCHRONIZATION DEFLECTION SYSTEM CONTROL PWM IC
EXPLANATION OF TERMINALS (Cont.)
Pin No.
Symbol
Function and peripheral circuit of pins
VREF
20
fh/2fh
Double speed switch
Switches frequency of OUT2
and drive output to the double frequency.
OPEN, GND
fh
VREF
2fh
20
VREF
21
Duty Adj
Duty adjustment of drive output
21
Phase adjustment of drive output against OUT2 (T2)
VREF
22
Phase Adj
DRIVE
OUT
22
OUT2
T2
VREF
23
DRIVE OUTPUT
Open collector output
24
VCC
Supply terminal
23
( 6 / 11 )
MITSUBISHI (Dig./Ana. INTERFACE)
M62500P/FP
SYNCHRONIZATION DEFLECTION SYSTEM CONTROL PWM IC
APPLICATION EXAMPLE
VCC
VR2
D1
C4
VR4
VR3
VR1
C1
R1
Tin
C2
1
24
2
23
3
22
4
21
5
20
C10
R12
DOUT
C9
C8
C7
Ragc
Cagc1
+IN1
-IN1
R4
C4
R3
R5
C3
R6
OUT1
C1, C10
VR 1, 2, 3, 4
C2, C8, C9
6
19
7
18
8
17
9
16
R2
10
15
11
14
12
13
: Is required for stabilization of Vcc and VREF.
C5
R7
C6
R8
R11
-IN2
OUT2
R4, R5, R8, R9
assure the stability of feedback, R4 and R8
µF.
C3, C4, C5, C6
shall be set to several kΩ to tens of kΩ to set
: Is determined taking into account the load
the gain to approx. 20dB to 40dB with f=1
capability of VREF. (External load capability
kHz. If the gain is too low, jitter may take
of approx. 5mA) Shall be normally set to
place. It is therefore recommended to set C3
approx. 10kΩ.
and C5 to tens of pF to hundreds of pF, C4
: Is added to high impedance pin of voltage
and C6 to thousands of pF to tens of
thousands of pF, and R5 and R9 to tens of
kΩ to hundreds of kΩ.
environment. Shall be normally set to approx.
Ragc
0.1µF.
: Resistance for setting AGC on the OUT2
side. Is set with Ragc=27kΩ.
: Is added for the execution of software start.
C7
: If f to be input into Tin suddenly changes,
Set a time constant, taking into account the
addition of C7 shortens non-control time of
set value of VR2.
Dout (output of "H"). As a capacitance value,
: Is added to reduce interference by Tin and
it is recommended to adopt 2.2µF. In the
outputs. With VIN=approx. 2.5V to 5V, the
case of adding C7, however,
resistance value of approx. 22kΩ is
Cagc2≥0.68µF is recommended.
recommended.
Cagc 1, 2
R9
+IN2
R2, R3, R10, R11 : A gain setup constant of error Amp. To
Depends on the device installation
R1
R10
Is normally set to tens of µF to hundreds of
control for improvement in noise margin.
C4, D1
Cagc2
R6, R7
: Current limit resistance of OUT1/2. Is
normally set to several Ω. Insertion of direct
: Capacitance necessary for stabilization of
AGC. As the capacitance is larger, the
limit resistance into OUT1/2 pin is also
stability is larger, but the characteristic of
answering becomes worse. The capacitance
effective.
R12
value of 1µF is recommended.
: Pull-up resistance of DOUT output. DOUT is
an open collector output and requires R12. Is
normally set to several kΩ.
* Note: To reduce interference in the signal system, pins 1 GND and
12 P.GND shall be grounded at a point in the power supply block.
( 7 / 11 )
MITSUBISHI (Dig./Ana. INTERFACE)
M62500P/FP
SYNCHRONIZATION DEFLECTION SYSTEM CONTROL PWM IC
SETUP OF VOLTAGE CONTROL BLOCK
TD vs. VDELAY Adj CHARACTERISTICS (f=40kHz)
20
Applying a voltage to the DELAY Adj pin can control the delay time
of OUT1 to TIN.
10
TIN
TD
TD
OUT1
0
0
2.0
4.0
VDELAY Adj (V)
PWM OUTPUT MINIMUM DUTY vs. VDTC
CHARACTERISTICS (f=40kHz)
100
Applying a voltage to the DTC pin can control the dead time of
PWM output.
80
60
TH
40
OUT1, 2
T
20
PWM output minimum duty
0
0
1
2
3
TDUTY= TH X100 (%)
T
4
VDTC (V)
T2 vs. VPhase CHARACTERISTICS (f=40kHz)
10
Applying a voltage to the Phase Adj pin can control a leading time
of drive output to OUT2.
8
6
OUT2
4
T2
2
DRIVE OUT
0
0
1
2
3
4
5
VPhase (V)
( 8 / 11 )
T2
MITSUBISHI (Dig./Ana. INTERFACE)
M62500P/FP
SYNCHRONIZATION DEFLECTION SYSTEM CONTROL PWM IC
T2 vs. f CHARACTERISTICS
10
VPhase=2300mV
8
VPhase=1350mV
6
VPhase=650mV
4
VPhase=250mV
2
0
50
0
100
150
TIN f (kHz)
DRIVE OUTPUT DUTY vs. VDUTY
CHARACTERISTICS (f=40kHz)
100
Applying a voltage to the DUTY Adj pin can control drive output
duty.
80
60
TH
Drive output
T
40
20
0
Drive output duty
0
1
2
3
TDUTY= TH X100 (%)
T
4
VDUTY (V)
( 9 / 11 )
MITSUBISHI (Dig./Ana. INTERFACE)
M62500P/FP
SYNCHRONIZATION DEFLECTION SYSTEM CONTROL PWM IC
TIME CHART
VCC
DRIVE
OUTPUT
PHASE
ADJ
DUTY
ADJ
DOUBLE
SPEED
SWITCH
24
23
22
21
20
RAGC
CAGC2
IN2 (+)
IN2 (-)
FB2 COLLECTOR2 OUT2
19
18
17
16
15
14
9
10
11
13
PHASE
CONT
WIND
COMP
EDGE
DETECTION
(SWITCH)
DUTY
CONT
D
E
GEN
AGC
F
comp
C
B
OUTPUT START
START (VCC>9V)
STOP (VCC<6V)
GEN
AGC
VREF
A
VCC
DELAY
1
2
3
4
5
6
7
8
GND
VREF
Tin
Delay
Adj
CAGC1
DTC
IN1 (+)
IN1 (-)
FB1 COLLECTOR1 OUT1
12
P. GND
PIN WAVE
PIN 3
TIN
FB1
PIN 9
A POINT
B POINT
C POINT
PIN 11
OUT1
TD
D POINT
( 10 / 11 )
MITSUBISHI (Dig./Ana. INTERFACE)
M62500P/FP
SYNCHRONIZATION DEFLECTION SYSTEM CONTROL PWM IC
PIN WAVE (Cont.)
D POINT
E POINT
PIN 20
F POINT
Low
FB2
PIN 15
PIN 13
OUT2
PIN 23
D.OUT
T1
T2
TL
TH
E POINT
F POINT
PIN 20
PIN 13
High
OUT2
PIN 23
D.OUT
PWM OUT NON-CONTROL STATUS
With trigger input at pin
3
3.5V
1.5V
FB>3.5V, FB>DTC
High
OUT1, 2
FB<1.5V, FB>DTC
Without trigger at pin
3
(in case of GND)
OUT1, 2
Low (GND)
( 11 / 11 )