PT7M6101/6102
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Ultra Low Voltage Detectors
Features
Low/High Threshold voltage with 90mV/100mV for
PT7M6101 and 190mV/200mV for PT7M6102
Internal Reference (10mV hysteresis)
±10mV
Threshold Voltage Accuracy Over
Temperature
Low Power Consumption: 8μA (typical)
Three Output Configurations
Push-Pull Active Low-- OVRI
Push-Pull Active High--- OVRI
Open-Drain Active Low--- OVRI
Description
PT7M6101/6102 series are designed for over
current detector. They provide excellent circuit
reliability and low cost by eliminating external
components. These devices assert an OVRI signal when
the voltage at IN pin rises above the high threshold.
After IN pin declines below the low threshold, OVRI
signal is de-asserted.
PT7M6101CL/6102CL have a push-pull active-
low output. PT7M6101CH/6102CH have a push-pull
active-high output. PT7M6101NL/6102NL have an
open-drain active-low output. The open-drain active-
low output requires a pull-up resistor that can be
connected to a voltage higher than V
DD
.
Low
supply
current
of
8μA
makes
PT7M6101//6102 series ideal for using in battery power
supply. These devices are available in SOT23-5 lead
free packages.
Guaranteed OVRI Valid to Vcc=1.0V
Immune to Short Negative Vcc Transients
SOT23-5LPackage are available
Pin Configuration
Applications
Over Current Protection in Battery Charger etc.
Over Temperature Protection
Power Supply
Voltage Monitoring
Pin Description
Pin Name
GND
OVRI
I/O
GND
O
Description
Ground
Over-current Output, Push-Pull or Open-Drain, Active-Low. OVRI changes from HIGH to
LOW when IN rises above the typical high detection threshold (100mV). OVRI remains HIGH
after IN drops below the low detection threshold (90mV).
Over-current Output, Push-Pull, Active-High. OVRI changes from LOW to HIGH when IN
rises above the typical high detection threshold (100mV). OVRI remains LOW after IN drops
below the low detection threshold (90mV).
Detection Voltage Input. High-impedance input for comparator. Connect this pin to over-current
sampling network. OVRI is asserted when IN is above the high threshold voltage.
Supply Voltage
OVRI
IN
VCC
O
I
Power
2013-11-0004
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PT0260-5
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PT7M6101/6102
Ultra Low Voltage Detectors
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Maximum Ratings
Storage Temperature………………………………………… - 65 C to +150 C
o
o
Ambient Temperature with Power Applied....................-40oC to +85oC
Supply Voltage to Ground Potential (V
CC
to GND)………... - 0.3 to V
CC
+6.0V
DC Input/Output Current …………………………………………………20mA
Power Dissipation……………………………………………………….245mW
Note:
Stresses greater than those listed under MAXIMUM
RATINGS may cause permanent damage to the
device. This is a stress rating only and functional
operation of the device at these or any other condi-
tions above those indicated in the operational sec-
tions of this specification is not implied. Exposure
to absolute maximum rating conditions for extended
periods may affect reliability.
AC Electrical Characteristics
(V
CC
= +0.9V to +5.5V, unless otherwise noted. Typical values are at T
A
= +25º
C)
Description
Vcc or RESET-IN to Reset Delay
Propagation Delay(D0 only)
t
P
Sym
Test Conditions
IN rising, step signal from 0V to 1V
IN falling, step signal from 1V to 0V
Min
-
-
Typ
60
40
Max
-
-
Unit
µs
µs
DC Electrical Characteristics
(V
CC
= +0.9V to +5.5V, unless otherwise noted. Typical values are at T
A
= +25º
C)
Description
Sym
Test Conditions
Operating Voltage Range
Supply Current
V
CC
I
CC
T
A
= -40º ~+85º
C
C
V
CC
=1.2V, no load , reset not asserted
V
CC
=1.8V, no load , reset not asserted
V
CC
=3.6V, no load , reset not asserted
IN Threshold
V
RSTIN
1.3V<=V
CC
<=5.5V, -40º ~+85º (PT7M6101)
C
C
1.3V<=V
CC
<=5.5V, -40º ~+85º (PT7M6102)
C
C
V
CC
>=1.1V, I
source
=50µ reset not asserted
A,
Push-pull OVRI
Output High Voltage
V
OH
V
CC
>=1.5V, I
source
=150µ reset not asserted
A,
V
CC
>=1.0V, I
source
=50µ reset asserted
A,
V
CC
>=1.5V, I
source
=150µ reset asserted
A,
Push-pull OVRI
Output Low Voltage
Push-pull OVRI
Output Low Voltage
Open-Drain OVRI
Output Low Voltage
Open-Drain OVRI
Output Leakage Current
IN Leakage Current
Reset Threshold Hysteresis
I
LKG
I
RSTIN
V
HYS
V
OL
V
CC
>=1.0V, I
sink
=80µ reset asserted
A,
V
CC
>=1.5V, I
sink
=200µ reset asserted
A,
V
CC
>=1.1V, I
sink
=80µ reset not asserted
A,
V
CC
>=1.5V, I
sink
=200µ reset not asserted
A,
V
CC
>=1.0V, I
sink
=80µ reset asserted
A,
V
CC
>=1.5V, I
sink
=200µ reset asserted
A,
V
CC
> V
TH
, reset not asserted
-
-
Min
0.9
-
-
-
90
190
0.8×
Vcc
0.8×
Vcc
0.8×
Vcc
0.8×
Vcc
-
-
-
-
-
-
-
-25
-
Typ
-
7.5
9
16
100
200
-
-
-
-
-
-
-
-
-
-
-
-
10
Max
5.5
13
16
25
110
210
-
-
-
-
0.2×
Vcc
0.2×
Vcc
0.2×
Vcc
0.2×
Vcc
0.15
0.2
1.0
+25
-
V
µA
nA
mV
V
-
mV
µA
Unit
V
2013-11-0004
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PT0260-5
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PT7M6101/6102
Ultra Low Voltage Detectors
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Block Diagram
Functional Description
PT7M6101/6102 series are designed for over current detector. They provide excellent circuit reliability and low cost by
eliminating external components. These devices assert an OVRI signal when the voltage at IN pin rises above the high threshold.
After IN pin declines below the low threshold, OVRI signal is de-asserted.
Application Circuit
PT7M6101/6102
R
VCC
IN
VCC
0.1uF
Rs
R pull up
GND
OVRI
2013-11-0004
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PT7M6101/6102
Ultra Low Voltage Detectors
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Mechanical Information
TA (SOT23-5L)
2013-11-0004
4
PT0260-5
12/12/13
PT7M6101/6102
Ultra Low Voltage Detectors
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Ordering Information
Part Number
PT7M610xCLTAE
PT7M610xCHTAE
PT7M610xNLTAE
Package Code
TA
TA
TA
Package
Lead free and Green SOT23-5L
Leas free and Green SOT23-5L
Lead free and Green SOT23-5L
Note:
Suffix “x” shows 1 or 2 with different function. See Table 1
E = Pb-free and Green
Adding X Suffix= Tape/Reel
Contact Pericom for availability
Table 1 Part No code comparison table
No.
1
2
3
4
5
6
Function comparison of PT7M6101/6102
Output Open- Output Push-
Drain
Pull
No
Part No.
Active Active Active Active
high
low
high
low
1 PT7M6101CL/6102CL
-
-
-
2 PT7M6101CH/6102CH
-
-
-
3 PT7M6101NL/6102NL
-
-
-
Part No.
PT7M6101CL
PT7M6101CH
PT7M6101NL
PT7M6102CL
PT7M6102CH
PT7M6102NL
Code
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jq
jl
rz
sa
sb
Pericom Semiconductor Corporation
1-800-435-2336
www.pericom.com
Pericom reserves the right to make changes to its products or specifications at any time, without notice, in order to improve design or performance and to supply
the best possible product. Pericom does not assume any responsibility for use of any circuitry described other than the circuitry embodied in Pericom product. The
company makes no representations that circuitry described herein is free from patent infringement or other rights, of Pericom.
2013-11-0004
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PT0260-5
12/12/13
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