TC54VN3401EMB [MICROCHIP]
1-CHANNEL POWER SUPPLY SUPPORT CKT, PSSO3, SOT-89, 3 PIN;型号: | TC54VN3401EMB |
厂家: | MICROCHIP |
描述: | 1-CHANNEL POWER SUPPLY SUPPORT CKT, PSSO3, SOT-89, 3 PIN |
文件: | 总3页 (文件大小:27K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
APPLICATION NOTE 2
USING THE TELCOM TC54
VOLTAGE DETECTOR
INTRODUCTION
OPERATION
TelCom's TC54 series of voltage detectors are de-
signedtosupersedeavarietyofdiscretecomparatorcircuits
and bipolar technology voltage detectors.
The TC54VN equivalent circuit is shown in Figure 1.
The internal precision temperature-compensated reference
and comparator circuit consistently monitor VIN for an under-
voltagecondition. Whensuchaconditionoccurs, theoutput
isforcedtotheactive(LOW)stateandremainsthereuntilVIN
is once again within tolerance. As shown in the timing
diagram of Figure 1, the output is forced active when VIN <
(–VDET) (Where (–VDET) is the threshold voltage) and returns
HIGH when VIN exceeds (–VDET) plus 5% hysteresis (ex-
ample: if (–VDET) = 2.0V, the output will go HIGH when VIN >
2.1V).
These voltage detectors are especially suited for appli-
cation in battery powered systems because of their ex-
tremely low 1µA operating current. Each part is laser
programmed to the desired trip point voltage over the range
of 0.8V to 6.0V in 100mV steps. For complete design
flexibility, complementary or open-drain output versions are
available. TC54 package options include surface mount
SOT-23 and SOT-89 or through-hole TO-92 types.
TC54 BLOCK DIAGRAM AND TIMING
TC54VC only
INPUT VOLTAGE
RELEASE
VOLTAGE (+ VDET
)
HYSTERESIS
VOLTAGE
2
DETECT VOLTAGE (- VDET
)
V
IN
MINIMUM OPERATING
VOLTAGE
GROUND LEVEL
V
OUT
–
+
1
OUTPUT VOLTAGE
GROUND LEVEL
V
REF
V
SS
3
Figure 1.
TC54 AS A MICROPROCESSOR RESET
GENERATOR
V
IN
Following a power outage, microprocessors require a
reset to get them back into their starting state. Commonly
used simple Schmitt trigger/capacitor circuits are inad-
equate since they do not accurately monitor the power
supply voltage tolerance. The TC54 series overcomes this
problem with precise voltage detection. Figure 2 shows a
reset circuit using a standard TC54 and external RC time
constant, replacing bipolar integrated voltage detectors
(see Table 1).
V
IN
R
V
OUT
Microprocessor
Circuit
TC54VN
C
V
SS
Figure 2. Microprocessor Reset Circuit using TC54
and External Delay
AN2-2 8/22/97
USING THE TELCOM TC54
VOLTAGEDETECTOR
AN-2
Table 1. TC54 Cross Reference Listing
TELCOM
MFGR
PART#
TELCOM #
DESCRIPTION
ATTRIBUTE
Motorola
Motorola
Motorola
Motorola
Motorola
Motorola
T.I.
MC33064P-5
MC34064P-5
MC34164P-3
MC34164P-5
MC33164P-3
MC33164P-5
TL7757ILP
TC54VN4502EZB
TC54VN4502EZB
TC54VN2702EZB
TC54VN4302EZB
TC54VN2702EZB
TC54VN4302EZB
TC54VN4502EZB
TC54VN4502EZB
4.5V trip, -40 to +85C, TO-92
4.5V trip, 0 to +70C, TO-92
2.7V trip, 0 to +70C, TO-92
4.3V trip, 0 to +70C, TO-92
2.7V trip, -40 to +85C, TO-92
4.3V trip, -40 to +85C, TO-92
4.5V trip, -40 to +85C, TO-92
4.5V trip, 0 to +70C, TO-92
500 times less power
500 times less power
10 times less power
10 times less power
10 times less power
10 times less power
2000 times less power
2000 times less power
T.I.
TL7757CLP
MODIFYING THE TRIP POINT, –VDET
Although the TC54 has a pre-programmed VDET, it is
sometimes necessary to make adjustments during
prototyping. This can be accomplished by connecting an
external resistor divider to a TC54 which has a VDET lower
than that of VSOURCE (Figure 3).
To maintain detector accuracy, the bleeder current
through the divider should be significantly higher than the
1µA operating current required by the TC54. A reasonable
value for this bleeder current is 100µA (100 times the 1µA
required by the TC54). For example, if (-VDET)= 2V and the
desiredtrippointis2.5V, thevalueofR1+R2 is250KOhms
(2.5V/100µA). The value of R1 + R2 can be rounded to the
nearest standard value and plugged into the equation of
Figure 3 to calculate values for R1 and R2. 1% tolerance
resistors are recommended.
OTHER APPLICATIONS
V
SOURCE
R1
VSOURCE
Where:
= (–V
)
(
)
DET
R1 + R2
R2
V
V
IN
OUT
TC54
VSOURCE = Voltage to be monitored
(-VDET) = Threshold Voltage Setting of TC54
Note: In this example, VSOURCE must be
R1
V
SS
greater than (–VDET
)
Figure 3. Modify trip point of TC54 using external resistor divider
2
AN2-2 8/22/97
USING THE TELCOM TC54
VOLTAGEDETECTOR
AN-2
4.3V
VCC
270Ω
VIN
VIN
VOUT
RL
Pwr
POWER GOOD
TC54Vx
VSS
Sply
VOUT
MTP3055EL
TC54VN
VSS
Figure 6. Power good monitor
Figure 4. MOSFET low drive protection
Low operating power and small physical size make the
TC54 series ideal for many voltage detector applications,
such as those shown below. Figure 4 shows a low-voltage
gate drive protection circuit, which prevents overheating of
the logic-level MOSFET due to insufficient gate voltage.
When the input signal is below the threshold of the TC54VN,
its output grounds the gate of the MOSFET. Figure 5 and 6
show the TC54 in conventional voltage monitoring applica-
tions.
V
IN
BATLOW
TC54Vx
V
OUT
V
SS
Figure 5. Battery voltage monitor
Sales Offices
TelCom Semiconductor
TelCom Semiconductor H.K. Ltd.
10 Sam Chuk Street, Ground Floor
San Po Kong, Kowloon
Hong Kong
TEL: 852-2324-0122
FAX: 852-2354-9957
TelCom Semiconductor
1300 Terra Bella Avenue
P.O. Box 7267
Mountain View, CA 94039-7267
TEL: 650-968-9241
Austin Product Center
9101 Burnet Rd. Suite 214
Austin, TX 78758
TEL: 512-873-7100
FAX: 512-873-8236
FAX: 650-967-1590
E-Mail: liter@c2smtp.telcom-semi.com
3
Printed in the U.S.A.
AN2-2 8/22/97
相关型号:
©2020 ICPDF网 联系我们和版权申明