MITSUMI PST574L

System Reset PST574
MITSUMI
System Reset
Monolithic IC PST574
Outline
This IC functions in a variety of CPU systems and other logic systems, to detect power supply voltage and
reset the system accurately when power is turned on or interrupted. This ultra-low current consumption low
reset type system reset IC has a built-in fixed delay time generating circuit. It is ideal for use in multi-CPU
systems because a fast-rising output waveform can be obtained.
Features
1.
2.
3.
4.
5.
Ultra-low current consumption
Low operating limit voltage
Output current high for ON
Hysteresis voltage provided in detection voltage
Built-in delay circuit with excellent delay time
temperature characteristics
6. 10 ranks of detection voltage
ICCH=7.5µA typ. ICCL=400µA typ.
0.65V typ.
30mA typ.
50mV typ.
50mV typ.
PST574
C : 4.5V typ.
D : 4.2V typ.
E : 3.9V typ.
F : 3.6V typ.
G : 3.3V typ.
H : 3.1V typ.
I : 2.9V typ.
J : 2.7V typ.
K : 2.5V typ.
L : 2.3V typ.
Package
MMP-3A (PST574 M)
TO-92A (PST574 )
contains detection voltage rank .
*
Applications
1.
2.
3.
4.
5.
Reset circuits in microcomputers, CPUs and MPUs (especially multi-CPU sets)
Logic circuit reset circuits.
Battery voltage check circuits.
Back-up power supply switching circuits.
Level detection circuits.
Pin Assignment
1
2
3
TO-92A
1
VCC
2
GND
3
VOUT
1
3
2
MMP-3A
1
VCC
2
GND
3
VOUT
System Reset PST574
MITSUMI
Equivalent Circuit Diagram
Absolute Maximum Ratings
Item
Symbol
Rating
Units
Storage temperature
TSTG
-40~+125
°C
Operating temperature
TOPR
-20~+75
°C
Power supply voltage
VCC max.
-0.3~10
V
Allowable loss
Pd
Electrical Characteristics
Item
Detection voltage
Hysteresis voltage
Detection voltage temperature
coefficient
Low-level output voltage
Output leakage current
Circuit current while on
Circuit current while off
"H"transport delay time
"L"transport delay time
Operation limit voltage
Output current while on I
Output current while on II
1 : tpLH : VCC=(VS typ.-0.4V)
2 : VCC=VS min.-0.15V
*
*
(Ta=25°C)
200 (MMP-3A)
300 (TO-92A)
mW
(Ta=25°C) (Except where noted otherwise, resistance unit is Ω)
Symbol
VS
VS
Measurement
Measurement conditions
circuit
PST574C
PST574D
PST574E
PST574F
RL=470
PST574G
1
VOL <= 0.4V
PST574H
VCC=H L
PST574I
PST574J
PST574K
PST574L
1
RL=470, VCC=L H L
Min. Typ. Max. Units
4.3
4.0
3.7
3.4
3.1
2.9
2.75
2.55
2.35
2.15
25
4.5
4.2
3.9
3.6
3.3
3.1
2.90
2.70
2.50
2.30
50
VS/ T
1
RL=470, Ta=-20°C~+75°C
±0.01
VOL
IOH
ICCL
ICCH
tpLH
tpHL
VopL
IOL I
IOL II
1
1
1
1
2
2
1
1
1
VCC=VS min.-0.05V, RL=470
VCC=7.5V
VCC=VS min.-0.05V, RL=∞
VCC=VS typ./0.85V, RL=∞
1 RL=4.7kΩ, CL=100pF
1 RL=4.7kΩ, CL=100pF
RL=4.7kΩ, VOL =< 0.4V
VCC=Vs min.-0.05V, RL=0
2 Ta=-20°C~+75°C, RL=0
0.1
*
*
*
(VS typ.+0.4V), tpHL : VCC=(VS typ.+0.4V)
250
8
5
(VS typ.-0.4V)
400
7.5
400
6
0.65
30
4.7
4.4
4.1
3.8
3.5
3.3
3.05
2.85
2.65
2.45
100
V
mV
%/°C
0.4
±0.1
650
12.0
600
20
0.85
V
µA
µA
µA
µS
µS
V
mA
mA
System Reset PST574
MITSUMI
Measuring Circuit
[1]
[2]
0.8V
4.9
VS
4.1
0V
Note: Input model is an example for PST574C.
Characteristics
(Example: PST574C)
Vcc vs. Icc
Vcc vs. VOUT
500
8
7
Ta=-20°C
400
6
5
Ta=25°C
VOUT
(V) 4
ICC
(µA)
3
Ta=-25°C
Ta=25°C
Ta=75°C
2
1
0
1
2
3
300
Ta=75°C
200
4
5
6
7
8
100
VCC (V)
0
0
1
2
3
4
5
6
7
8
VCC (V)
Vs vs. Ta
Vs vs. Ta
4.53
80
4.52
70
4.51
60
VS 4.50
(V)
VS 50
(mV)
4.49
40
4.48
30
4.47
20
-40
-20
0
20
40
Ta (°C)
60
80
-40
-20
0
20
Ta (°C)
40
60
80
System Reset PST574
MITSUMI
IoL vs. Ta
VoL vs. Ta
60
300
50
250
IOL 40
(mA)
VOL 200
(mV)
30
150
20
100
10
50
-40
-20
0
20
40
60
-40
80
-20
0
20
Ta (°C)
40
60
80
40
60
80
Ta (°C)
ICCH vs. Ta
ICCL vs. Ta
10
500
9
8
lCCH
(µA)
ICCL 400
(µA)
7
6
300
5
4
-40
-20
0
20
40
60
-40
80
-20
0
20
Ta (°C)
Ta (°C)
tPLH vs. Ta
Pd vs. Ta
600
300
500
450
tPLH
(µS)
200
Pd
(mW)
400
350
100
300
250
-40
-20
0
20
40
60
0
80
0
25
50
Ta (°C)
75
Ta (°C)
Timing Chart
VCC /VOUT
(V)
7
6
5
4
3
2
1
0
VCC
VS
VOUT
Time
RESET
ON
OFF
Undefined
100
125
MITSUMI
System Reset PST574
Application circuits
1. Normal hard reset
Note: Connect a capacitor between IC pins 1 and 2
if VCC line impedance is high.
2. Battery checker (LED ON for high voltage)
Note: Connect a capacitor between IC pins 1 and 2
if VCC line impedance is high.
3. Battery checker (LED ON for low voltage)
Note: Connect a capacitor between IC pins 1 and 2
if VCC line impedance is high.
4. Hysteresis voltage UP method
When increasing hysteresis voltage for stable system
operation, determine RH as follows and connect
externally.
However, ICCH is -5000PPM/°C, so perform
temperature compensation at RH when using over a
wide temperature range.
Hysteresis voltage UP amount ( Vsup) is
Vsup .=. RH ICCL
Total hysteresis voltage ( Vstotal) is
Vstotal .=. Vs + Vsup
(Operation will be destabilized if RH is raised too
much.)
Note: Connect a capacitor between IC pins 1 and 2 if
VCC line impedance is high.