ETC PT7A7515

Data Sheet
PT7A7511-7517/7521-7527/7531-7537
µP Supervisor Circuits
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Features
Introduction
• Precision supply-voltage monitor
The PT7A751X/752X/753X family microprocessor
- 4.63V (PT7A7511, 7521, 7531)
(µP) supervisory circuits are targeted to improve
- 4.38V (PT7A7512, 7522, 7532)
reliability and accuracy of power-supply circuitry in
- 3.08V (PT7A7513, 7523, 7533)
µP systems. These devices reduce the complexity and
- 2.93V (PT7A7514, 7524, 7534)
number of components required to monitor power-
- 2.63V (PT7A7515, 7525, 7535)
supply and battery functions.
- 2.32V (PT7A7516, 7526, 7536)
The main functions are:
- 2.20V (PT7A7517, 7527, 7537)
• 200ms reset pulse width
1. Asserting reset output during power-µp, power-
• Debounced TTL/CMOS-compatible manual-
down and brownout conditions for µP system;
2. Detecting power failure or low-battery conditions
reset input
with a 1.25V threshold detector;
• Independent watchdog timer 1.6sec time-out (not
3. Watchdog functions (not for PT7A753x).
available for PT7A7531 - 7537)
• Reset output signal:
Applications
- Active-low only (PT7A7511 - 7517)
- Active-high only (PT7A7521 - 7527)
• Power-supply circuitry in µP systems
- Active-high and active-low (PT7A7531 - 7537)
• Voltage monitor for power-fail or low battery warning
• Guaranteed RESET/RESET valid at VCC = 1.2V
PT0082(05/02)
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Data Sheet
PT7A7511-7517/7521-7527/7531-7537
µP Supervisor Circuits
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Contents
Features ....................................................................................................................................................... 1
Block Diagram ............................................................................................................................................ 1
Introduction ................................................................................................................................................. 1
Pin Information ........................................................................................................................................... 4
Pin Configuration .............................................................................................................................. 4
Pin Description .................................................................................................................................. 4
Functional Description ................................................................................................................................ 5
Reset Output ...................................................................................................................................... 5
Watchdog Timer ................................................................................................................................ 5
Manual Reset ..................................................................................................................................... 5
Power-Fail Comparator ..................................................................................................................... 5
Function Reference Table .................................................................................................................. 6
Detailed Specifications ................................................................................................................................ 7
Absolute Maximum Ratings .............................................................................................................. 7
Recommended Operation Condition ................................................................................................. 7
DC Electrical Characteristics ............................................................................................................. 8
AC Electrical Characteristics ............................................................................................................. 9
Ordering Information ................................................................................................................................ 10
Mechanical Information ............................................................................................................................ 11
Notes ......................................................................................................................................................... 12
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Data Sheet
PT7A7511-7517/7521-7527/7531-7537
µP Supervisor Circuits
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Block Diagram
Figure 1. Block Diagram of PT7A7511-7517/7521-7527
WDI
Watchdog
Transition Detector
Vcc
250uA
Watchdog Timer
WDO
Timebase for Reset
& Watchdog
MR
Reset Generator
RESET
(RESET)
Vcc
V RST
PFI
PFO
1.25V
Figure 2. Block Diagram of PT7A7531-7537
Vcc
250uA
RESET
MR
Reset Generator
RESET
Vcc
VRST
PFI
PFO
1.25V
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Data Sheet
PT7A7511-7517/7521-7527/7531-7537
µP Supervisor Circuits
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Pin Information
Pin Configuration
Figure 3. Pin Configuration
PT7A7511P-7517P
PT7A7511W-7517W
8-Pin PDIP/8-Pin SOIC
PT7A7521P-7527P
PT7A7521W-7527W
8-Pin PDIP/8-Pin SOIC
PT7A7531P-7537P
PT7A7531W-7537W
8-Pin PDIP/8-Pin SOIC
MR
1
8
WDO
MR
1
8
WDO
MR
1
8
RESET
V CC
2
7
RESET
V CC
2
7
RESET
V CC
2
7
RESET
GND
3
6
WDI
GND
3
6
WDI
GND
3
6
NC
PFI
4
5
PFO
PFI
4
5
PFO
PFI
4
5
PFO
Top View
Pin Description
Table 1. Pin Description
P in Na m e
Typ e
MR
I
Vcc
Power
Power Su p p ly
GND
Ground
G r ou n d R efer en ce for all signals
PFI
I
Power -Fa il Volt a ge Mon it or I n p u t: When PFI is less than 1.25V, PFO goes low. Connect PFI to
GND or Vcc when not used.
PFO
O
Power -Fa il O u t p u t : it gets low and sinks current when PFI is less than 1.25V; otherwise PFO stays
high.
I
Wa t ch d og I n p u t: If WDI remains high or low for 1.6sec, the internal watchdog timer runs out and
WDO goes low. Floating WDI or connecting WDI to a high-impedance three-state buffer disables
the watchdog feature. The internal watchdog timer clears whenever reset is asserted. WDI is threestated, or WDI sees a rising or falling edge.
WDI
NC
Descr ip t ion
Ma n u a l-R eset : triggers a reset pulse when pulled below 0.8V, active low. It has an internal 250µA
pull-up current and be driven from a TTL or CMOS logic line as well as shorted to ground with a
switch.
No C on n ect
O
R eset O u t p u t p u lses: low for 200ms when triggered, and stays low whenever Vcc is below the reset
threshold. It remains low for 200ms after Vcc rises above the reset threshold or MR goes from low
to high. A watchdog timeout will not trigger RESET unless WDO is connected to MR.
WDO
O
Wa t ch d og O u t p u t : pulls low when the internal watchdog timer finishes its 1.6sec count and does
not go high again until the watchdog is cleared. WDO also goes low during low-line conditions.
Whenever Vcc is below the reset threshold, WDO stays low; however, unlike RESET, WDO does
not have minimum pulse width. As soon as Vcc rises above the reset threshold, WDO goes high
with no delay.
RESET
O
T h e inver se of R E SE T: active high. Whenever RESET is high, RESET is low.
RESET
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Data Sheet
PT7A7511-7517/7521-7527/7531-7537
µP Supervisor Circuits
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Functional Description
Watchdog Timer
The PT75xx family can assert reset output during power-up,
power-down and brownout conditions for uP system, detect
power failure or low-battery conditions with a 1.25V threshold
detector and have watchdog functions. Refer to Table 2 for
their individual features. The typical application see Figure 4.
The watchdog circuit monitors the µP’s activity. If the µP does
not toggle the watchdog input (WDI) within 1.6sec and WDI is
not in high impedance, WDO goes low. As long as RESET is
asserted or the WDI input is in high impedance, the watchdog
timer will stay cleared and will not count. As soon as reset is
released and WDI is driven high or low, the timer will start
counting. Pulses as short as 50ns can be detected.
Reset Output
Typically, WDO will be connected to the non-maskable
interrupt input (NMI) of a µP. When VCC drops below the reset
threshold, WDO will go low whether or not the watchdog timer
has timed out yet. Normally this would trigger an NMI
interrupt, but RESET goes low simultaneously, and thus
overrides the NMI interrupt. If WDI is left unconnected, WDO
can be used as a low-line output. Since floating WDI disables
the internal timer, WDO goes low only when VCC falls below
the reset threshold, thus functioning as a low-line output.
The supervisory circuits can assert reset for a microprocessor
during power-up, power-down and brownout to prevent code
execution errors.
On power-up, once VCC reaches about 1.2V, RESET is a
guaranteed logic low of 0.4V or less. As VCC rises, RESET stays
low. When VCC rises above the reset threshold, an internal timer
releases RESET after about 200ms. RESET pulses low whenever
VCC drops below the reset threshold (brownout condition). If
brownout occurs in the middle of a previously initiated reset
pulse, the pulse continues for at least another 140ms.
Manual Reset
The manual-reset input (MR) allows reset to be triggered by a
push-button switch. The switch is effectively debounced by
the 140ms minimum reset pulse width. MR is TTL/CMOS
logic compatible, so it can be driven by any logic reset output.
On power-down, once VCC falls below the reset threshold,
RESET stays low and is guaranteed to be 0.4V or less until Vcc
drops below 1V.
The PT7A752x and PT7A753x active-high RESET output is
simply the complement of the RESET output, and is guaranteed
to be valid with VCC down to 1.2V. Some µPs, such as Intel’s
80C51, require an active-high reset pulse.
Power-Fail Comparator
The power-fail comparator will send out a Low signal once
detects a voltage lowered than 1.25V. It can be used for various
purposes because its output and non-inverting input are not
internally connected. The inverting input is internally
connected to a 1.25V reference.
Figure 4. Typical Application Circuit
IN
DC Linear
Regulator
µP
OUT
Vcc
Vcc
RESET
µP Supervisory
Circuit
PFI
WDI
WDO
MR
PFO
PT0082(05/02)
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RESET
I/O Line
NMI
Interrupt
Ver:1
Data Sheet
PT7A7511-7517/7521-7527/7531-7537
µP Supervisor Circuits
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Function Reference Table
Table 2. Function Table of PT7A75xx Family
Part No.
Reset Threshold
PT7A7511
4.63V
PT7A7521
PT7A7531
PT7A7512
PT7A7522
Reset Active Low Nom. Reset Time Nom. Watch dog
or High
(ms), t RS
Time (sec), t WD
Power Fail
Comp.
Manual Reset
Input
1.6
1.25V detector
Yes
LOW
200
4.63V
HIGH
200
1.6
1.25V detector
Yes
4.63V
LOW, HIGH
200
unavailable
1.25V detector
Yes
4.38V
LOW
200
1.6
1.25V detector
Yes
4.38V
HIGH
200
1.6
1.25V detector
Yes
PT7A7532
4.38V
LOW, HIGH
200
unavailable
1.25V detector
Yes
PT7A7513
3.08V
LOW
200
1.6
1.25V detector
Yes
PT7A7523
3.08V
HIGH
200
1.6
1.25V detector
Yes
PT7A7533
3.08V
LOW, HIGH
200
unavailable
1.25V detector
Yes
PT7A7514
2.93V
LOW
200
1.6
1.25V detector
Yes
PT7A7524
2.93V
HIGH
200
1.6
1.25V detector
Yes
PT7A7534
2.93V
LOW, HIGH
200
unavailable
1.25V detector
Yes
PT7A7515
2.63V
LOW
200
1.6
1.25V detector
Yes
PT7A7525
2.63V
HIGH
200
1.6
1.25V detector
Yes
PT7A7535
2.63V
LOW, HIGH
200
unavailable
1.25V detector
Yes
PT7A3516
2.32V
LOW
200
1.6
1.25V detector
Yes
PT7A3526
2.32V
HIGH
200
1.6
1.25V detector
Yes
PT7A3536
2.32V
LOW, HIGH
200
unavailable
1.25V detector
Yes
PT7A7517
2.20V
LOW
200
1.6
1.25V detector
Yes
PT7A7527
2.20V
HIGH
200
1.6
1.25V detector
Yes
PT7A7537
2.20V
LOW, HIGH
200
unavailable
1.25V detector
Yes
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Data Sheet
PT7A7511-7517/7521-7527/7531-7537
µP Supervisor Circuits
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Detailed Specifications
Absolute Maximum Ratings
Storage Temperature ....................................................... -65oC to +150oC
Ambient Temperature with Power Applied ....................... -40oC to +85oC
Supply Voltage to Ground Potential (Vcc to GND) ........... -0.3V to +7.0V
DC Input Voltage (All inputs except Vcc and GND) ..... -0.3V to VCC+0.3V
DC Output Current (All outputs) .................................................... 20mA
Power Dissipation ........................................................................ 500mW
(Depend on package)
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 conditions above those indicated in the operational sections of this specification is not implied. Exposure
to absolute maximum rating conditions for extended periods may affect reliability.
Recommended Operation Condition
Table 3. DC Electrical Characteristics
Sym
VCC
Descr ip t ion
Min
Typ
Ma x
Un it
Supply Voltage for 75x1, 75x2
4.5
5.0
5.5
V
Supply Voltage for 75x3, 75x4
3.0
3.3
5.5
V
Supply Voltage for 75x5, 75x6, 75x7
2.7
3.0
5.5
V
VCC > 4.0V
2.0
2.4
VCC ≤ 4.0V
0.7VCC
V
0.7VCC
V
VIH1
MR Input High Voltage
VIH2
WDI Input High Voltage
VIL1
MR Input Low Voltage
VIL2
WDI Input Low Voltage
TA
Operating Temperature
PT0082(05/02)
Test C on d it ion s
V
VCC > 4.0V
0.8
V
VCC ≤ 4.0V
0.2VCC
V
0.3VCC
V
-40
7
85
O
C
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Data Sheet
PT7A7511-7517/7521-7527/7531-7537
µP Supervisor Circuits
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DC Electrical Characteristics
Table 4. DC Electrical Characteristics
Sym
ICC
VRST
VRTH
VOH
VOL
VPFT
Descr ip t ion
Test C on d it ion s
Operational Power Supply Current
T7A75x1/75x2 VCC = 5V
PT7A75x3/75x4 VCC = 3.3V
PT7A75x5 VCC = 3.0V
PT7A75x6/75x7 VCC = 2.5V
Left WDI un-connected (No
output load)
Min
Typ
Ma x
Un it
30
200
µΑ
TA=25oC
VRN-1.5%
VRN
VRN+1.5%
PT7A75x1
4.560
4.630
4.699
PT7A75x2
4.314
4.380
4.446
PT7A75x3
3.034
3.080
3.126
PT7A75x4
2.886
2.930
2.974
PT7A75x5
2.590
2.630
2.669
PT7A75x6
2.285
2.320
2.355
PT7A75x7
2.167
2.200
2.233
Reset Threshold Voltage *
Reset Threshold Hysteresis *
Output HIGH Voltage
Output LOW Voltage
PFI Input Threshold
IPFI
PFI Input Current
IWDI
Average WDI Input Current**
IMR
MR Input Current
V
VCC varies between VRN – 5%
70
Vcc > 4.5V Isource=800µA
VCC-1.5
Vcc > 2.7V Isource=500µA
0.8VCC
Vcc >1.8V Isource=150µA
0.8VCC
mV
V
Vcc > 4.5V Isink=3.2mA
0.4
Vcc > 2.7V Isink=1.2mA
0.3
Vcc > 1.2V Isink=100µA
0.3
V
VPFI varies from1.0V to 1.5V
(TA = 25oC)
1.23
1.25
1.27
V
VPFI varies from1.0V to 1.5V
1.20
1.25
1.30
V
2.00
PFI connected to VCC
PFI connected to GND
µA
-2.00
30
WDI connected to VCC
WDI connected to GND
-100
-30
MR = 0, VCC= 5V
-600
-250
100
-100
µA
µA
* Valid for both RESET and RESET. VRN is nominal reset threshold voltage.
** WDI is internally serviced within the watchdog period if WDI is left unconnected.
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Data Sheet
PT7A7511-7517/7521-7527/7531-7537
µP Supervisor Circuits
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AC Electrical Characteristics
Table 5. AC Electrical Characteristics
Sym
Descr ip t ion
Test C on d it ion s
Min
Typ
Ma x
Un it s
tRS
Reset Pulse Width
MR from low to High
140
200
280
ms
tWD
Watchdog Timeout Period
WDI and MR tied to VCC,
VCC > VRN + 5%
1.0
1.6
2.25
s
tMR
MR Pulse Width
tMD
MR to RESET Delay
tWP
WDI Pulse Width
150
ns
VCC = 5.0V
250
50
ns
ns
Figure 5. Watchdog Timing Diagram
tWP
tWD
tWD
tWD
5V
WDI
0V
5V
WDO
0V
5V
Externally
Triggered by MR
RESET
0V
tRS
5V
RESET
0V
Figure 6. Watchdog Timing Diagram
VCC
VRT
VRT
5V
tRS
tRS
0V
5V
RESET
0V
MR
5V
tMD
0V
tMR
5V
WDO
0V
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Data Sheet
PT7A7511-7517/7521-7527/7531-7537
µP Supervisor Circuits
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Ordering Information
P a r t N o.
R e s e t Thr e s hold
Pa ck a ge
P a r t N o.
R e s e t Thr e s hold
Pa ck a ge
PT7A7511P
4.63V
PDIP- 8
PT7A7511W
4.63V
SO IC- 8 (150mil)
PT7A7521P
4.63V
PDIP- 8
PT7A7521W
4.63V
SO IC- 8 (150mil)
PT7A7531P
4.63V
PDIP- 8
PT7A7531W
4.63V
SO IC- 8 (150mil)
PT7A7512P
4.38V
PDIP- 8
PT7A7512W
4.38V
SO IC- 8 (150mil)
PT7A7522P
4.38V
PDIP- 8
PT7A7522W
4.38V
SO IC- 8 (150mil)
PT7A7532P
4.38V
PDIP- 8
PT7A7532W
4.38V
SO IC- 8 (150mil)
PT7A7513P
3.08V
PDIP- 8
PT7A7513W
3.08V
SO IC- 8 (150mil)
PT7A7523P
3.08V
PDIP- 8
PT7A7523W
3.08V
SO IC- 8 (150mil)
PT7A7533P
3.08V
PDIP- 8
PT7A7533W
3.08V
SO IC- 8 (150mil)
PT7A7514P
2.93V
PDIP- 8
PT7A7514W
2.93V
SO IC- 8 (150mil)
PT7A7524P
2.93V
PDIP- 8
PT7A7524W
2.93V
SO IC- 8 (150mil)
PT7A7534P
2.93V
PDIP- 8
PT7A7534W
2.93V
SO IC- 8 (150mil)
PT7A7515P
2.63V
PDIP- 8
PT7A7515W
2.63V
SO IC- 8 (150mil)
PT7A7525P
2.63V
PDIP- 8
PT7A7525W
2.63V
SO IC- 8 (150mil)
PT7A7535P
2.63V
PDIP- 8
PT7A7535W
2.63V
SO IC- 8 (150mil)
PT7A7516P
2.32
PDIP- 8
PT7A7516W
2.32
SO IC- 8 (150mil)
PT7A7526P
2.32
PDIP- 8
PT7A7526W
2.32
SO IC- 8 (150mil)
PT7A7536P
2.32
PDIP- 8
PT7A7536W
2.32
SO IC- 8 (150mil)
PT7A7517P
2.20
PDIP- 8
PT7A7517W
2.20
SO IC- 8 (150mil)
PT7A7527P
2.20
PDIP- 8
PT7A7527W
2.20
SO IC- 8 (150mil)
PT7A7537P
2.20
PDIP- 8
PT7A7537W
2.20
SO IC- 8 (150mil)
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Data Sheet
PT7A7511-7517/7521-7527/7531-7537
µP Supervisor Circuits
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Mechanical Information
Figure 7. 8-Pin SOIC
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Data Sheet
PT7A7511-7517/7521-7527/7531-7537
µP Supervisor Circuits
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Notes
Pericom Technology Inc.
Email: [email protected]
Web-Site: www.pti.com.cn, www.pti-ic.com
China:
No. 20 Building, 3/F, 481 Guiping Road, Shanghai, 200233, China
Tel: (86)-21-6485 0576
Fax: (86)-21-6485 2181
Asia Pacific:
Unit 1517, 15/F, Chevalier Commercial Centre, 8 Wang Hoi Rd, Kowloon Bay, Hongkong
Tel: (852)-2243 3660
Fax: (852)- 2243 3667
U.S.A.:
2380 Bering Drive, San Jose, California 95131, USA
Tel: (1)-408-435 0800
Fax: (1)-408-435 1100
Pericom Technology Incorporation 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 Technology does not assume any responsibility for use of any circuitry described
other than the circuitry embodied in Pericom Technology product. The company makes no representations that circuitry described herein is free
from patent infringement or other rights, of Pericom Technology Incorporation.
PT0082(05/02)
12
Ver:1