UT01VS33L - Aeroflex Microelectronic Solutions

Standard Products
UT01VS33L Voltage Supervisor
Data Sheet
July 28, 2014
www.aeroflex.com/voltsupv
FEATURES
INTRODUCTION
 3.15V to 3.6V Operating voltage range
 Power supply (VDD) monitor set by the internal voltage
reference at 3.08V
 Precision Input Voltage Monitor using an internal 0.6V
voltage reference
 Watchdog Timer Circuit monitoring activity on WDI input
- Nominal timeout 1.6s
 RESET output responding to the VDD monitor and the
The UT01VS33L’s function is to monitor vital supply and signal
voltages in microprocessor systems. It provides for safe reset
during power up, power down and brownout conditions by using
an internal precision voltage reference.
manual reset input MR
- Nominal RESET pulse width 200ms
 RESET level valid for VDD>=1.2V
The UT01VS33L monitors activity at an independent watchdog
input by employing an internal timer and a watchdog output that
goes low if the input is not toggled within 1.6s. It provides for
precision voltage threshold detection on an independent voltage
input which could be used for battery or supply-low monitoring
of a supply voltage other than VDD.
The UT01VS33L includes an active low manual reset with a pushpull output.
 Operating Temperature Range -55oC to +125oC
 Low Power, Typical 400uA
 Operational environment:
- Total dose: 300 krad(Si)
- SEL Immune: <110 MeV-cm2/mg @125oC
- SET Immune: <80 MeV-cm2/mg
 Packaging options:
- 8-lead dual-in-line flatpack
 Standard Microelectronics Drawing 5962-11213
- QML Q and V
APPLICATIONS
 Voltage Supervisor function for various systems including
microprocessors, microcontrollers, DSPs and FPGAs
 Critical battery and power supply monitoring
 Replacement of older discrete solutions to improve reliability,
accuracy and reduce complexity of the systems
WDO
RESET &
DIGITAL CONTROL
MR
VDD
RESET
+
‐
WDI TIMER
3.08 V
GND
VREF
0.6 V
WDI TRANSITION
DETECTOR
OSC
WDI
‐
PFO
PFI
+
Figure 1. UT01VS33L Functional Block Diagram
1
PIN DESCRIPTIONS
Number
Pins
Type
Description
1
MR
Digital Input
Manual Reset Input with an internal pull-up. Active low. MR low forces the reset
output RESET low. Required minimum MR pulse width is 150ns. RESET is held low
for duration of the reset timer.
2
VDD
Supply
Power supply. Operating voltage range is 3.15V to 3.6V. VDD level is monitored
internally by a dedicated comparator circuit, which employs an internal bandgap
voltage reference nominally equal to 1.25V. Every time VDD falls below the threshold
voltage, nominally 3.08V, RESET and WDO outputs are forced low. (See WDO and
RESET descriptions.) (Figure 4.)
3
GND
Supply
Ground. This pin should be tied to ground and establishes the reference for voltage
detection.
4
PFI
Analog Input
Threshold detector input. Voltage on this input is fed directly to an internal
comparator where it is compared to the voltage reference of 0.6V. It can be used for
detection of low battery or power failure of voltage supplies other than VDD. When
voltage at PFI input drops below its threshold value of 0.6V, PFO output is forced low,
otherwise, stays high.
5
PFO
Digital Output
Threshold detector output. Active low push-pull output driver. It responds directly
to PFI input. If PFI voltage is below the bandgap reference voltage, PFO is low. If PFI
is above the reference voltage, PFO output is high.
6
WDI
Digital Input
Watchdog timer input pin. This pin is typically used to monitor microprocessor
activity. It can assume three states: low, high and float. If WDI is floating or connected
to a high impedance three state buffer, the watchdog timer is not active, and the
corresponding watchdog output WDO is high. Watchdog timer is also not active any
time RESET is low. Providing that RESET is not asserted, any change of state at WDI
that is longer than 100ns will start the timer, or restart it, if the timer is already running
(Figure 3.). If there is no activity within the timeout period, nominally 1.6s, the timer
will stop running and WDO output will go low (Figure 3).
7
RESET
Digital Output
Reset output. Active low push-pull output driver. This pin is pulled up with a resistor
consistant with the sink and voltage current as specified in the electrical characteristics
table. This output responds to both: VDD monitoring circuits and the manual reset
input MR.
On power up, RESET is guaranteed to be logic low for all VDD values from 1.2V up
to the reset threshold, nominally 3.08V. Once this threshold is reached, an internal
RESET timer is activated. During the countdown RESET output is kept low. It is
raised high upon completion of countdown, typically after 200ms. If a brown out
condition occurs during the reset timer countdown, the reset timer would be reset and
another countdown would start after VDD levels were restored above the reset
threshold. On power down, when VDD falls below the threshold voltage, RESET goes
low and is guaranteed to stay low until VDD drops below 1.2V.
If MR is asserted low, RESET is forced low and the reset timer is kept reset. When
MR is released high, the timer is activated and RESET is kept low until completion
of the reset timeout, when it is raised high.
2
Number
Pins
Type
Description
8
WDO
Digital Output
Watchdog output. Active low push-pull output driver. This pin is usually connected
to a non-maskable interrupt input of a microprocessor. On power up, WDO responds
to VDD monitoring circuitry. It stays low until the reset threshold, 3.08V nominally,
is reached. At that point, WDO is raised high. The internal watchdog timer is activated
after RESET is released. If there is no activity on WDI input, WDO goes low after
the watchdog timer times out, which is typically after 1.6sec. Any activity on WDI
will force WDO output to go high and the watchdog timer will be activated. If WDI
is floating or connected to a high impedance buffer output, the timer is kept in a reset
state and WDO stays high. When VDD drops below 3.08V, WDO goes low regardless
of whether the watchdog timer has timed out or not. RESET goes low simultaneously
which prevents an interrupt.
If WDI input is left unconnected, WDO can be used as a low line output. Since a
floating WDI disables the internal watchdog timer, WDO goes low when VDD drops
below 3.08V, thus, functioning as a low line output. (Figure 4.)
MR
1
8
WDO
VDD
2
7
RESET
UT01VS33L
GND
3
6
WDI
PFI
4
5
PFO
Figure 2. UT01VS33L Pin Configuration
3
OPERATIONAL ENVIRONMENT
PARAMETER
LIMIT
UNITS
Total Ionizing Dose (TID)
300
krad(Si)
Single Event Latchup Immune (SEL)
<110
MeV-cm2/mg
Single Event Transient Immune (SET)
<80
MeV-cm2/mg
ABSOLUTE MAXIMUM RATINGS 1
(Referenced to GND)
SYMBOL
LIMITS
UNITS
Voltage supply
7.2
V
TJ
Maximum junction temperature
175
C
T
Storage temperature
-65 to +150
C
PD
Power dissipation
2.5
W
Vin
Input voltages
-0.3V to (VDD+0.3V)
V
+300
C
15
C/W
1000
V
VDD
PARAMETER
Tiead
Lead Temperature (soldering, 10 seconds)
JC
Thermal resistance, junction-to-case
VESD
ESDHBM
Notes:
1. Stresses outside the listed absolute 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 beyond limits indicated in the operational sections of this specification is not recommended. Exposure to
absolute maximum rating conditions for extended periods may affect device reliability.
RECOMMENDED OPERATING CONDITIONS
SYMBOL
PARAMETER
LIMITS
UNITS
VDD
Positive supply voltage
3.15 to 3.6
V
TC
Case temperature range
-55 to +125
C
GND
Negative supply voltage
0.0
V
4
ELECTRICAL CHARACTERISTICS 1,2
(VDD = 3.15V to 3.6V: -55°C < TC < +125°C)
SYMBOL
PARAMETER
CONDITION
MIN
MAX
UNIT
450
A
0.6
V
Power Supply
IDD
VDD supply current
VDD=3.6V
Digital Inputs and Outputs (MR, RESET, WDI, WDO, PFO)
VIL_WDI
Digital input low
VDD=3.15V
VIH_WDI
Digital input high
VDD=3.6V
VIL_MR
Manual reset input low
VDD=3.15V
VIH_MR
Manual reset input high
VDD=3.6V
Digital output low
VDD=3.15V, ISINK= 500A
0.3
V
RESET digital output low
VDD=3.15V, ISINK=1.2mA
0.3
V
PFO digital output low
VDD=3.15V, ISINK=1.2mA
0.3
Digital output high
VDD=3.15V, ISOURCE =500A
VOL_WDO
VOL_RESET
VOL_PFO
VOH3
0.7xVDD
V
0.6
0.7xVDD
V
V
0.8xVDD
V
Timing and Threshold Voltages
VDD falling reset assertion
VDD < 3.0V
0.7
1.8
s
tRS
Reset pulse width
VDD=3.15V
140
280
ms
tWD
Watchdog time-out period
VDD=3.6V
1.0
2.25
s
tWP
Watchdog input pulse width
VDD=3.15V
100
VRT
Reset threshold voltage
VDD=3.15V
3.0
tRST-ASSRT4
VRTHYS
Reset threshold voltage hysteresis
tMR
Manual reset (MR) input pulse
width
VDD=3.15V
tMD
Manual reset (MR) to reset out
delay
VDD=3.15V
IPFI4
Threshold detector input (PFI)
current
VDD=3.6V
VPFI
Threshold detector input (PFI)
threshold voltage
IMR
Manual reset pull-up current
tRPFI
ns
3.15
V
20
mV
150
ns
100
ns
-20
20
nA
VDD=3.3V
0.576
0.624
V
VDD=3.6V, MR=0.0V
-250
-25
A
PFI rising threshold crossing to
PFO delay
20
s
tFPFI
PFI falling threshold crossing to
PFO delay
40
s
IWDI
Watchdog input current
20
A
A
Analog Input PFI
WDI pin = VDD = 3.6V
WDI pin = 0V, VDD = 3.6V
5
-20
Notes:
1. For devices procured with a total ionizing dose tolerance guarantee, the post-irradiation performance at 25oC per MIL-STD-883 Method 1019, Condition A, up to
the maximum TID level procured (see ordering information).
2. Unless otherwise specified, VDD = 3.15V to 3.6V, -55C < TC < +125C. RESET is the only parameter operable within 1.2V and the minimum recommended
operating supply voltage.
3. VOH characterization applies to WDO, PFO and RESET.
4. Guaranteed by design, but not tested.
6
tMR
VDD
MR
GND
tWP
tWD
tWD
VDD
WDI
GND
tWD
VDD
WDO
GND
tMD
tRS
VDD
RESET
GND
Figure 3. WDI and WDO timing waveforms. Reset externally triggered by MR
VDD
VDD
3.08V
3.08V
GND
tRST_ASSRT
tRS
tWD
tRS
tWD
VDD
RESET
GND
tMD
VDD
MR
GND
tMR
WDI
VDD
GND
VDD
WDO
GND
Figure 4. RESET and WDO are driven low for VDD <3.08V. WDO is driven high when MR is low
7
VDD 3.3V
VDD
VIN_ANALOG
R1
R2
uP
1 MR
WDO 8
2 VDD
RESET 7
RESET
3 GND
WDI 6
I/O
4 PFI
PFO 5
VTH= (R1+R2)/R2 ) * VPFI
VPFI=0.6V +/‐ 50mV
Figure 5. UT01VS33L Under Voltage Monitor and Detection
Shown in Figure 5 is an application for monitoring the under voltage of a power supply connected to a microprocessor or ASIC. If
the analog voltage monitored falls below the desired threshold value, the PFO output connected to the MR input will transition low
causing the RESET output to be asserted low indicating an under voltage condition.
1.8V_REG
VDD_IO
VREG 1.8V
VDD_3.3V
VIN
EN
UT01VS33L
R1
VTH= (R1+R2)/R2 ) * VPFI
VPFI=0.6V +/‐ 25mV
R2
1 MR
WDO 8
2 VDD
RESET 7
3 GND
WDI 6
4 PFI
PFO 5
VOUT
RSTB
VREG 1.2V
WDI OPEN
VIN
1.2V_REG
VOUT
VDD
3.3V AND GATE
EN
VTH= (R3+R4)/R4 ) * VPFI
R3
VPFI=0.6V +/‐ 25mV
R4
1 MR
WDO 8
2 VDD
RESET 7
3 GND
WDI 6
4 PFI
PFO 5
R6
R7
1.2V REG
LED
1.8V REG
LED
UT01VS33L/D
Figure 6. Under Voltage Monitoring and sequencing of 1.8V and 1.2V Power Supplies
Shown in Figure 6 are two Voltage Supervisors configured to monitor both the 1.8V and 1.2V power supplies of a system. The
1.8V regulated supply is monitored by the PFI pin of the top Voltage Supervisor, while the 1.2V regulated supply is monitored by
the PFI pin of the bottom Voltage Supervisor. The cross coupled connection of PFO to MR assures that RESET will be asserted
when a brown out occurs on either the 1.8V or 1.2V regulated supplies.
8
VDD 3.3V
3.3V INV GATE
VDD
1 MR
WDO
8
RESET
7
R1
2 VDD
VTH_OV= (R1+R2)/R2 ) * VPFI
VPFI=0.6V +/‐ 25mV
R2
3 GND
WDI 6
4 PFI
PFO 5
IN1
uP
RESETB
I/O
UT01VS33L
Figure 7. UT01VS33L Over Voltage Power Supply Monitoring and Reset
Shown in Figure 7 is an application to monitor and detect power supply over voltage through the use of the PFI pin. When the
voltage at the PFI input, (VTH) exceeds VREF, (0.6V) the PFO output transitions from low to high causing the MR output to
transition from high to low. This asserts a RESET indicating the voltage being monitored has exceeded the over voltage monitor
limit.
9
VDD 3.3V
VDD
WDO 8
1 MR
R1
VTH_OV= (R1+R2)/R2 ) * VPFI
VPFI=0.6V +/‐ 25mV
R2
2 VDD
RESET
7
3 GND
WDI 6
4 PFI
PFO 5
uP
IN1
RESETB
I/O
UT01VS33L
UNDER VOLTAGE MONITOR
3.3V INV GATE
1 MR
R3
VTH_OV= (R3+R4)/R4 ) * VPFI
VPFI=0.6V +/‐ 25mV
R4
2 VDD
WDO 8
RESET
7
3 GND
WDI 6
4 PFI
PFO 5
RESETB
I/O
UT01VS33L
OVER VOLTAGE MONITOR
Figure 8. UT01VS33L Under Voltage and Over Voltage Power Supply Monitoring and Reset
Shown in Figure 8 is an application using two UT01VS33L Voltage Supervisors to monitor both under voltage and over voltage of
a power supply. In this application the top Voltage Supervisor monitors the under-voltage of a 3.3V power supply while the bottom
Voltage Supervisor monitors the over voltage of the same 3.3V power supply.
The 3.3Vsupply is monitored through the PFI input of both Voltage Supervisors. Resistor values for both under voltage and over
voltage monitoring can be set to accommodate a range of power supply voltages.
During normal operation where VDD is within the allowed range (VDD_UND < VDD < VDD_OV), RESETof both Voltage
Supervisors will be at logic high level. The Table 1 below shows the truth table for functional, under voltage detection and over
voltage detection.
10
Table 1. Under Voltage Over Voltage Truth Table
VDD
PFO_UND
PFO_OV
RESET_UND
RESET_OV
RESET
Normal Operation
VDD < VDD_UND
VDD > VDD_OV
HIGH
LOW
HIGH
LOW
LOW
HIGH
HIGH
LOW
HIGH
HIGH
HIGH
LOW
HIGH
LOW
LOW
Notes: -UND specifies under voltage case. -OV specifies overvoltage case
11
uP or ASIC
Mode
Normal
Reset Asserted
Reset Asserted
Figure 9. 8-pin Dual-In-Line Flatpack
12
ORDERING INFORMATION
UT01VS33L VOLTAGE SUPERVISOR
UT******
*
-
*
*
*
Lead Finish: (Notes: 1)
(C) = Gold
Screening Level: (Notes: 2 and 3)
(P) = Prototype Flow
(C) = HiRel Flow (Temperature range -55oC to +125oC)
Case Outline:
(X) = 8-lead Ceramic Flat Package
TID Tolerance:
(-) = None
Device Type
(L) = Active low RESET
Generic part number:
(01VS33)
Notes:
1. Lead finish is "C" (Gold) only.
2. Prototype flow per Aeroflex Manufacturing Flows Document. Devices are tested at 25C only. Lead finish is Gold "C" only. Radiation neither tested nor
guaranteed.
3. HiRel Flow per Aeroflex Manufacturing Flows Document. Radiation neither tested nor guaranteed.
13
UT01VS33L VOLTAGE SUPERVISOR: SMD
5962
*
*****
**
*
*
*
Lead Finish: (NOTE: 1)
(C) = Gold
Case Outline:
(X) = 8-Lead Ceramic Flatpack
Screening Level:
(Q) = QML Class Q
(V) = QML Class V
Device Type:
(15) = UT01VS33L (Temperature Range: -55oC to +125oC)
Drawing Number:
11213 = 3.3V Single Channel Voltage Supervisor
Total Dose:
(R) = 100 krad(Si)
(F) = 300 krad(Si)
Federal Stock Class Number: No Options
Notes:
1. Lead finish is “C” (gold) only.
14
Aeroflex Colorado Springs - Datasheet Definition
Advanced Datasheet - Product In Development
Preliminary Datasheet - Shipping Prototype
Datasheet - Shipping QML & Reduced Hi-Rel
This product is controlled for export under the International Traffic in Arms Regulations (ITAR). A license from the U.S.
Government is required prior to the export of this product from the United States.
www.aeroflex.com
[email protected]
Aeroflex Colorado Springs, Inc., reserves the right to
make changes to any products and services described
herein at any time without notice. Consult Aeroflex or an
authorized sales representative to verify that the
information in this data sheet is current before using this
product. Aeroflex does not assume any responsibility or
liability arising out of the application or use of any product
or service described herein, except as expressly agreed to
in writing by Aeroflex; nor does the purchase, lease, or
use of a product or service from Aeroflex convey a license
under any patent rights, copyrights, trademark rights, or
any other of the intellectual rights of Aeroflex or of third
parties.
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