KODENSHI BMR

System Reset IC
KODENSHI
BMR-0101
BMR–0101 is the low reset type of IC that guarantee to set
again micro computers or logic systems by detecting the
intermittent of fluctuating power supply voltage during
normal use or switching on/off of the equipments.
A comparator type of hysteresis transistor developed by
KODENSHI is built in the IC,so that BMR–0101 is very cost
effective components.
DIMENSIONS
(Unit : mm)
FEATURES
•Low current consumption
•Low operation voltage
•High current of output transistor
•Hysteresis circuit built in
APPLICATIONS
•Micro computer circuits in mobile phones,word
processors,TVs,VCRs etc.
•General logic circuits
•Detection of voltage drop in batteries of note personal
computers,mobile phones
•Switching to backup power supply
MAXIMUM RATINGS
Item
Supply voltage
Power dissipation
Operating temp.
Storage temp.
Soldering temp.*1
(Ta=25℃)
Symbol
Rating
Unit
VCC
PD
Topr.
Tstg
Tsol.
-0.3~+10.0
200
-20~+75
-40~+125
260
V
mW
℃
℃
℃
*1.5sec at location of 2mm away from lead bottom.
ELECTRO-OPTICAL CHARACTERISTICS
Item
Detecting Voltage
BMR-0101C
BMR-0101D
BMR-0101E
BMR-0101F
BMR-0101G
BMR-0101H
BMR-0101I
BMR-0101J
BMR-0101K
BMR-0101L
Hysteresis voltage
Temperature coefficient of detecting voltage
Low level output voltage
Circuit current at ON
Circuit current at OFF
Threshold operating voltage
Output current at ON 1
Output current at ON 2
Transmission delay time
Transmission delay time
(VC C=5V, Ta=25℃)
Symbol
Conditions
VS
RL =470 Ω,VCC =H →L,VOL ≦0.4V
△VS
VS /△T
VOL
ICCL
ICCH
VOPL
IOL 1
IOL 2
tPLH
tPHL
RL =470 Ω,VCC =L →H →L
RL =470 Ω,Ta=–20 ~75 ℃
RL =470 Ω,VCC =VS Min.
RL =∞Ω,VCC =VS Min.
RL =∞Ω,VCC =5.0V
RL =4.7k Ω,VOL ≦0.4V
RL =0 Ω,VCC =VS Min.
RL =0 Ω,Ta=–20 ~75 ℃
RL =4.7k Ω,CL =100pF
RL =4.7k Ω,CL =100pF
- 1-
Min.
Typ.
Max.
4.3
4.0
3.7
3.4
3.1
2.9
2.75
2.55
2.35
2.15
40
10
5
-
4.5
4.2
3.9
3.6
3.3
3.1
2.9
2.7
2.5
2.3
100
±0.01
0.1
230
130
1.3
20
12
2
4.7
4.4
4.1
3.8
3.5
3.3
3.05
2.85
2.65
2.45
300
0.4
380
200
1.5
35
7
Unit.
V
mV
%/℃
V
μA
μA
V
mA
mA
μsec
μsec
System Reset IC
BMR-0101
Power dissipation Vs.
Ambient temp
Output voltage Vs.
Supply voltage
circuit current Vs.
Supply voltage
Detecting voltage Vs.
Ambient temp.
Hysteresis voltage Vs.
Ambient temp.
Low Level output voltage Vs.
Ambient temp.
Circuit current at OFF Vs.
Ambient temp.
Circuit current at ON Vs.
Ambient temp.
Output current at ON Vs.
Ambient temp.
Load capasitance Vs.
Transmission delay time
Timing chart
- 2-