SEMTECH SC1437ISK

SC1437
Precision Voltage Detector With
Programmable Trigger Voltage & Timer Delay
POWER MANAGEMENT
Description
Features
Low quiescent current, less than 10µA typical
Input voltage range 1.8V to 6.8V
Adjustable or preset voltage trip point
Selectable timer delays of 0, 40 and 80ms without use of
external resistor
! SOT-23 5 lead package
! Accuracy is 2% over specified temperature range
! 30V maximum rating
!
!
!
!
The SC1437 is a battery over voltage detection circuit with driver
for external MOSFET. The trip point is adjustable with an external
resistor divider connected to the SENSE pin. The trip point is
preset to a nominal trip voltage of 4.2V if no external divider is
used. Other internal trip voltages of 4.5V and 4.7V are available,
specified by different part numbers. An internal delay, with two
selectable times or bypass, is on-board to suppress accidental
over voltage conditions due to glitches on the battery supply voltage, V+. The delay is externally adjustable by pulling the SEL pin
high, low, or left floating. During an actual over voltage condition,
the internal driver will pull the over voltage pin (OV) down to the
voltage present at the V- pin. This insures the external N-Channel
MOSFET will be completely off during an over voltage condition.
Supply current during the monitoring mode of operation is approximately 10µA. If an over voltage condition is detected, supply
currents increase when the timer is started. A voltage comparator
will engage at voltages greater than 6.8V, which bypasses the
timer and open circuits the battery by turning off the external
MOSFET. This important function protects the battery during the
timer delay in the event of a charger failure. There are three
functional options available. With the B option the OV pin is active
low. With the L option the OV pin is active high. With the H option
the OV pin is open drain, active high. All options are available in a
5 lead SOT-23 package.
Applications
!
!
!
!
!
!
Battery packs
Portable electronics
Lithium Ion protection circuits
Programmable Fuse
Power Monitoring
CPU Reset Circuits
Typical Application Circuit
+
R1
100
100
1
4
BATTERY
3
R2
SEL
V+
5
SENSE
OV
V-
2
SC1437
0.1uF
0.1uF
VTRIP = 2.1(1+R2/R1)
0.476 < (R2/R1) < 2
Revision 01/10/2001
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SC1437
POWER MANAGEMENT
Absolute Maximum Rating
Par ame te r
Symbo l
Maximum
Units
V+ Sup p ly Voltage to (V-)
V+
-0.3 to 30
V
Over Voltage Outp ut to (V-)
OV
-0.3 to 8
V
Select to (V-)
SEL
-0.3 to 7
V
Sense to (V-)
SEN SE
-0.3 to 7
V
Thermal Resistance Junction to Ambient
θJA
256
°C/W
Op erating Ambient Temp erature Range
TA
-40 to +85
°C
Op erating Junction Temp erature Range
TJ
-40 to +125
°C
Storage Temp erature Range
TSTG
-65 to +150
°C
Lead Temp erature (Soldering) 10 sec.
T LE A D
300
°C
ESD Rating (Human Body Model)
ESD
2
kV
Electrical Characteristics
Unless specified, TA = 25 OC, V+ = 1.8V to 6.3V. Values in bold apply over the full operating temperature range.
Par ame te r
Symbo l
Te st Co nditio ns
MI N
Inp ut Sup p ly Voltage
V+
Battery inp ut voltage
1 .8
Inp ut Sup p ly Current
I+
With internal divider; V+ = 4.7V
V T R IP
SEN SE = V-, 4.2V Op tion
Over Voltage Threshold
with Resp ect to V-
MAX
Units
6.3
V
10
14
µA
4.12
4.2
4.28
V
SEN SE = V-, 4.5V Op tion
4.41
4.5
4.59
V
SEN SE = V-, 4.7V Op tion
4.61
4.7
4.79
V
External Divider, VSENSE + 2.1V, VSENSE = 1V to 4.2V
Inp ut Bias Current
OV Threshold Hystersis
OV Drive Current
Delay
2
%
IBSEN
Sense Pin
1
µA
IBSEL
Select Pin
1
µA
hyst
SEN SE = V-, 4.2V Op tion
420
SEN SE = V-, 4.5V Op tion
450
SEN SE = V-, 4.7V Op tion
470
SEN SE = resistor divider
VTRIP* 0.1
B Version
150
uA
H & L Version; R = 100K, V+ = 4.2V
42
uA
With SEL = V+
0
ms
OVDRV
tdelay
mV
With SEL = V-
24
40
56
With SEL = no connect
48
80
112
Clamp Voltage
VCLMP
Step Voltage = 3V to 15V
Turn Off Time
toff
Turn off time of external FET with gate cap = 1nF
Turn-Off Time
toffbpt
6.8V Byp ass Timer Comp arator
 2000 Semtech Corp.
T YP
2
6.8
V
50
50
µsec
µsec
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SC1437
POWER MANAGEMENT
Ordering Information
Pin Configuration
Top View
SEL
1
V-
2
OV
3
5
V+
DEVICE(1)
PACKAGE
SC1437ISK-BXXTR
SOT-23-5L
SC1437ISK-HXXTR
SOT-23-5L
SC1437ISK-LXXTR
SOT-23-5L
Notes:
(1) Where XX = 42 (4.2V), 45 (4.5V), 47 (4.7V)
Only available in tape and reel packaging.
A reel contains 3,000 devices.
4
SENSE
SOT-23-5L
Marking Information
Top Mark
Bottom Mark
7B45
yyww
7 = SC1437 Device
Output Option: B = Output active low
L = Output active high
H = Output active high, with open drain
Voltage Option: 42 = 4.2V; 45 = 4.5V; 47 = 4.7V
yy = two-digit year of manufacture
ww = two-digit week of manufacture
Pin Descriptions
Pin #
Pin Name
1
SEL
2
V-
N egative terminal of charger.
3
OV
Over-voltage outp ut. Active low for version B. Active high for versions H & L.
4
5
 2000 Semtech Corp.
SEN SE
V+
Pin Function
Inp ut for timer delay selection (V+, gnd or no connect).
Voltage divider inp ut for adjusting over voltage trip p oint. Tie to V- for voltage monitor
configuration.
Inp ut sup p ly p in.
3
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SC1437
POWER MANAGEMENT
Block Diagram
V+
V+
V+
COMPARATOR
6.8V
CLAMP
4.2V*
MUX
V+
V+
DELAY
TIMER
DRIVER
OV
t
SENSE
SEL
V-
* Based on version selected 4.2V, 4.5V, 4.7V
t B option: Output active low
L option: Output active high
H option: Output active high, open drain
 2000 Semtech Corp.
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SC1437
POWER MANAGEMENT
Applications Information
allows the trip delay to be set to 0S, 40mS or 80mS by application of a jumper JP2, JP3 or leaving the jumper off, respectively.
Configuration of timing delays are shown in Table 1. Once the
trip delay is set to the required value the SC1437 will monitor
the charger voltage. If the charger voltage equals or exceeds
5.5V the OV pin will transition from high to low (Version B)
turning Q1 off, thereby breaking the circuit and protecting the
battery from overvoltage.
Figure 3 shows the trip delay of 80mS, while Figure 4 shows the
trip delay set to 40mS and Figure 5 shows no delay set.
The SC1437 can be used as a battery over voltage detection
circuit with driver for an external MOSFET. In this configuration
the SC1437 is capable of protecting the battery if the charger
circuit fails. Because of its low cost, the SC1437 is an excellent
choice in cases when primary discharge protection is not
required. The part is an excellent choice for secondary over
voltage protection where the battery has primary fault and
discharge protection, but could benefit by adding another line of
defense against charger failure.
The SC1437 comes in three voltage trip options and three
function options. The voltage options are 4.2V, 4.5V or 4.7V. In
addition, the trip voltage levels can be adjusted with an
external resistive divider.
FIGURE 1
VSENSE+
R4
100
The SC1437 also has three separate functional options that
affect the OV pin action:
With the B option, the OV pin is active low and is used to drive
an N-Channel MOSFET.
With the H option, the OV pin is active high with open drain to
drive a P-Channel MOSFET.
Finally, the L option is active high and it's output is 5V logic high
for specific use as a voltage detector flag.
1
2
V+
N O DELAY
V-
40mS
OPEN
80mS
 2000 Semtech Corp.
V+
R3
100
R1
C1
0.1uF
R2
5
VOV SENSE
4
SC1437
VSENSE-
VOLTAGE DETECTOR: TRIP DELAY = 0
VTRIP = 2.1(1+R2/R1)
0.476 < (R2/R1) < 2
When using the program resistors R1 & R2, Figure 2, to set an
alternate trip voltage, be sure these resistors are placed across
the battery on the drain side of the MOSFET. This will eliminate
any voltage drop errors caused by the MOSFET on resistance.
Figure 6 and Figure 7 shows the normalized trip voltage
variation with respect to temperature. Note that in all cases the
trip voltage remains within its 2% specified range. This is true for
both the internal trip voltage and externally set trip voltage,
however when using an external resistor divider, the tolerance
and temperature coefficient of the resistors will add to the
overall device error. Choice of the resistor tolerance and
temperature coefficient will depend on your error budget. We
also recommend using high value resistors to limit battery
current drain. Values between 100K and 1M should suffice
without introducing excessive noise into the IC.
CHAR
GER O
VER
V OL
TA GE PR
OTECTION
CHARGER
OVER
VERV
OLT
PRO
The SC1437 configuration for secondary overvoltage protection
is shown in Figure 2. This is the Evaluation Board schematic.
The Evaluation Board is set up to work with either internal trip
voltage or external trip voltage via R1 and R2. It also can set the
trip delay to all three values through jumper selection of JP2
and JP3.
With CHARGER+ and CHARGER- input applied, the charger
voltage will be filtered by R3 and C1. The filtered voltage will
then be sensed by the V+ input. In this case the trip voltage can
be set to a value other than the internal setting of 4.2V. This is
done by using the on-board external resistor divider and
removing JP1 shunt jumper that will allow the resistors R1 and
R2 to program a trip voltage of 5.75V. The Evaluation Board also
SEL
C2
0.1uF
TABLE 1
DELAY
3
VTRIP
Any part can be configured as a voltage detector as shown in
Figure 1. A programmable trip delay can be set as indicated by
Table 1. In Figure 1, the trip voltage is set externally by R1 & R2.
while the trip delay is set to 0 seconds plus any propagation
delay of the SC1437 to allow the MOSFET to turn off, specified
by parameter toff.
SEL CONNECTION
U1
CHOOSING THE EXTERNAL MOSFET
The external switch must be a logic level MOSFET. Most logic
level MOSFETs have threshold voltages in the 1V range and can
handle a gate to source voltage (VGS) of 12V which is well
above the clamp voltage of the SC1437. In addition, the
selection should be able to handle the charging current of the
battery over all temperature ranges. Whether to use a P-Channel
or N-Channel MOSFET depends upon the option chosen. The B
option requires the use of a N-Channel MOSFET while the H
option uses a P-Channel MOSFET.
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SC1437
POWER MANAGEMENT
Applications Information Continued
NO JUMPER = 80ms DELAY
VBAT+ 1
1
JP3
0 DELAY
1
2
R1
576K
JP2
40ms DELAY
1
2
CHARGER+
R3
100
R4
100
U2
1
4
3
VTRIP 1
SEL
V+
SENSE
V-
5
2
OV
SC1437
1
C1
0.1uF
R2
1M
C2
0.1uF
4
2
JP1
JUMPER IN = INTERNAL VTRIP SELECT
JUMPER OUT = ADJUSTABLE VTRIP SELECT
VBAT- 1
5
6
7
8
1
2
3
1
CHARGER-
Q1
IRF7805
FIGURE 2
FIGURE 4: TTrip
rip dela
o 40mS, JP2 Shor
delayy Se
Sett tto
Shortted.
FIGURE 3: TTrip
rip Dela
o 80mS, JP3 & JP2 Open.
Delayy se
sett tto
Top Trace: Charger Voltage, 5V/div
Top Trace: Charger Voltage, 5V/div
Bottom Trace: VTRIP, 5V/div
Bottom Trace: VTRIP, 5V/div
Timebase: 20ms/div
Timebase: 20ms/div
 2000 Semtech Corp.
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SC1437
POWER MANAGEMENT
Applications Information Continued
FIGURE 6: Int
ernal TTrip
rip V
oltage (4.7V) De
viation
Internal
Voltage
Deviation
perature.
Plo
tt
ed A
gainst TTem
em
Plott
tted
Against
emperature.
FIGURE 5: TTrip
rip dela
o 0mS, JP3 Shor
delayy Se
Sett tto
Shortted.
INTERNAL TRIP VOLTAGE DEVIATION OVER
TEMPERATURE
0.4
DEVIATION (%)
0.2
0
-0.2
4.7V Internal
-0.4
-0.6
-0.8
-1
-40
-20
0
20
40
60
80
100 120
TEMPERATURE (Degrees C)
Top Trace: Charger Voltage, 5V/div
Bottom Trace: VTRIP, 5V/div
Timebase: 20ms/div
FIGURE 7
ernal TTrip
rip V
oltage (4.2V) De
viation
7:: Int
Internal
Voltage
Deviation
Plo
tt
ed A
gainst TTem
em
perature.
Plott
tted
Against
emperature.
INTERNAL TRIP VOLTAGE DEVIATION OVER
TEMPERATURE
0.2
DEVIATION (%)
0.1
0
-0.1
4.2V Internal
-0.2
-0.3
-0.4
-0.5
-0.6
-40
-20
0
20
40
60
80
100
120
TEMPERATURE (Degrees C)
 2000 Semtech Corp.
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SC1437
POWER MANAGEMENT
Outline Drawing - SOT23-5
Land Pattern - SOT23-5
Contact Information
Semtech Corporation
Power Management Products Division
652 Mitchell Rd., Newbury Park, CA 91320
Phone: (805)498-2111 FAX (805)498-3804
 2000 Semtech Corp.
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