ZXCT1009

ZXCT1009
HIGH-SIDE CURRENT MONITOR
Description
Pin Assignments
SOT23
Package Suffix - F
The ZXCT1009 is a high side current sense monitor. Using
this device eliminates the need to disrupt the ground plane
when sensing a load current.
It takes a high side voltage developed across a current shunt
resistor and translates it into a proportional output current. A
user defined output resistor scales the output current into a
ground-referenced voltage.
VSENSE-
1
The wide input voltage range of 20V down to as low as 2.5V
make it suitable for a range of applications. A minimum
operating current of just 4µA, combined with a SOT23
package make it a unique solution for portable battery
equipment. The SM8 device offers an alternative package
option.
IOUT
2
VSENSE+
(Top View)
SM8
Package Suffix – T8
Features
•
•
•
•
•
•
•
•
3
Low cost, accurate high-side current sensing
Output voltage scaling
Up to 2.5V sense voltage
2.5V to 20V supply range
4μA quiescent current
1% typical accuracy
SOT23 and SM8 packages
AEC-Q100.3 qualified; ZXCT1009FTA only
VSENSE-
1
8
N/C
N/C
2
7
N/C
VSENSE+
3
6
N/C
IOUT
4
5
N/C
(Top View)
Applications
•
•
•
•
•
•
•
•
Battery chargers
Smart battery packs
DC motor control
Over current monitor
Power management
Level translating
Programmable current source
Application Circuit
RSENSE
V IN
2
To load
3
V SENSE-
V SENSE+
ZXCT1009
IOUT
1
VOUT
ROUT
ZXCT1009
Document number: DS33441 Rev. 12 - 2
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April 2011
© Diodes Incorporated
ZXCT1009
HIGH-SIDE CURRENT MONITOR
Pin Descriptions
Pin Name
VSENSE+
VSENSE-
Pin Function
Connection to supply voltage
Connection to load
IOUT
Output current, proportional to measured current
Absolute Maximum Ratings (TA = 25°C)
Description
Voltage on any pin (relative to IOUT)
Continous output current, IOUT
†
Rating
-0.6 to 20
Unit
25
mA
V
Continuous sense voltage, VSENSE
-0.5 to +5
V
Operating temperature, TA
-40 to 85
°C
Storage temperature
Package power
SOT23
dissipation @ TA = 25°C
SM8
(Derate to zero @ 125°C)
-55 to 125
°C
450
mW
2
W
Operation above the absolute maximum rating may cause device failure. Operation at the absolute
maximum ratings for extended periods may reduce device reliability.
Electrical Characteristics (TA = 25°C, VIN = 5V, ROUT = 100Ω)
Symbol
VIN
Parameter
Min
VCC range
1
IOUT
Output Current
†
VSENSE
Sense Voltage
ISENSE-
VSENSE Input Current
ACC
Transconductance,
IOUT/VSENSE
BW
Bandwidth
Limits
Typ
2.5
VSENSE = 0V
VSENSE = 10mV
VSENSE = 100mV
VSENSE = 200mV
VSENSE = 1V
1
90
0.975
1.95
9.6
4
104
1.002
2.0
9.98
0
RSENSE = 0.1Ω
VSENSE = 200mV
Accuracy
GM
Notes:
Conditions
VSENSE(DC) = 10mv, RF PIN = -40dBm
-2.5
‡
VSENSE(DC) = 100mv, RF PIN = -20dBm
‡
Max
Units
20
V
15
120
1.025
2.05
10.2
µA
µA
mA
mA
mA
2500
mV
100
nA
2.5
%
10000
µA/V
300
2
kHz
MHz
1. Includes input offset voltage contribution
†. VSENSE is defined as the differential voltage between VSENSE+ and VSENSE-.
VSENSE = VSENSE+ - VSENSE= VIN - VLOAD
= ILOAD x RSENSE
‡ -20dBm=63mVPP into 50Ω
ZXCT1009
Document number: DS33441 Rev. 12 - 2
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April 2011
© Diodes Incorporated
ZXCT1009
HIGH-SIDE CURRENT MONITOR
Typical Characteristics
ZXCT1009
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ZXCT1009
HIGH-SIDE CURRENT MONITOR
Typical Characteristics (cont.)
Power Dissipation
Application Information
The maximum allowable power dissipation of the device for
normal operation (PMAX), is a function of the package junction to
ambient thermal resistance (θJA), maximum junction temperature
(TJMAX), and ambient temperature (TAMB), according to the
expression:
The following text describes how to scale a load current
to an output voltage.
PMAX = (TJMAX – TAMB) / θJA
E.g.
The device power dissipation, PD is given by the expression:
A 1A current is to be represented by a 100mV output
voltage:
PD = IOUT(VIN -VOUT) W
VSENSE = VIN - VLOAD
1
VOUT = 0.01 x VSENSE x ROUT
1) Choose the value of RSENSE to give 50mV >
VSENSE > 500mV at full load.
For example VSENSE = 100mV at 1.0A.
RSENSE = 0.1/1.0 => 0.1Ω.
2) Choose ROUT to give VOUT = 100mV, when
VSENSE = 100mV.
Rearranging 1 for Rout gives:
ROUT = VOUT /(VSENSE x 0.01)
ROUT = 0.1 / (0.1 x 0.01) = 100Ω
ZXCT1009
Document number: DS33441 Rev. 12 - 2
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ZXCT1009
HIGH-SIDE CURRENT MONITOR
Application Information (cont.)
Li-Ion Charger Circuit
Transient Protection
An additional resistor, RLIM can be added in series with ROUT
(as below), to limit the current from IOUT. Any circuit
connected to VOUT will be protected from input voltage
transients. This can be of particular use in automotive
applications where load dump and other common transients
need to be considered.
RSENSE
VIN
2
To load
3
VSENSE-
VSENSE+
ZXCT1009
IOUT
1
The above figure shows the ZXCT1009 supporting the
Benchmarq bq2954 Charge Management IC. Most of the
support components for the bq2954 are omitted for clarity.
This design also uses the Diodes FZT789A high current
Super-ß PNP as the switching transistor in the DC-DC step
down converter and the FMMT451 as the drive NPN for the
FZT789A. The circuit can be configured to charge up to four
Li-Ion cells at a charge current of 1.25A. Charge can be
terminated on maximum voltage, selectable minimum
current, or maximum time out. Switching frequency of the
PWM loop is approximately 120kHz.
The ZXCT1009 is intended as a direct functional
replacement for the ZDS1009, which is featured in a
complete design from Unitrode/Texas Instruments on the
Li-Ion
charger
circuit
shown
above.
Reference:
DVS2954S1H Li-Ion Charger Development System.
RLIM
VOUT
ROUT
ZXCT1009 with additional current limiting Resistor RLIM.
Assuming the worst case condition of VOUT = 0V; providing a
low impedance to a transient, the minimum value of RLIM is
given by:RLIM(min) = (VPK – VMAX)/IPK
VPK = Peak transient voltage to be withstood
VMAX = Maximum working voltage = 20V
IPK = Peak output current = 40mA
The maximum value of RLIM is set by VIN(MIN), VOUT(MAX) and
the dropout voltage (see transfer characteristic on page 3) of
the ZXCT1009 :RLIM(MAX) = ROUT[VIN(MIN) – (VDP + VOUT(MAX))]/VOUT(MAX)
VIN(MIN) = Minimum Supply Operating Voltage
VDP = Dropout Voltage
VOUT(MAX) = Maximum Operating Output Voltage
ZXCT1009
Document number: DS33441 Rev. 12 - 2
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April 2011
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ZXCT1009
HIGH-SIDE CURRENT MONITOR
Application Information (cont.)
PCB trace shunt resistor for low cost solution
The figure below shows output characteristics of the device
when using a PCB resistive trace for a low cost solution in
replacement for a conventional shunt resistor. The graph shows
the linear rise in voltage across the resistor due to the PTC of
the material and demonstrates how this rise in resistance value
over temperature compensates for the NTCof the device.
The figure opposite shows a PCB layout suggestion. The
resistor section is 25mm x 0.25mm giving approximately 150mΩ
using 1oz copper. The data for the normalised graph was
obtained using a 1A load current and a 100Ω output resistor. An
electronic version of the PCB layout is available through Diodes
applications group.
Layout shows area of shunt resistor compared to SOT23
package. Not actual size.
Effect of Sense Resisitor Material
on Temperature Performance
Ordering Information
Device
ZXCT1009FTA
ZXCT1009F-7
ZXCT1009T8TA
AEC-Q100
level
Grade 3
None
None
ZXCT1009
Document number: DS33441 Rev. 12 - 2
Reel
Size
7”
7”
7”
Tape Width
Quantity per Reel
Part Marking
Package
8mm
8mm
12mm
3000 Units
3000 Units
1000 Units
109
109
ZXCT1009
SOT23
SOT23
SM8
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ZXCT1009
HIGH-SIDE CURRENT MONITOR
Package Outline Dimensions (All Dimensions in mm)
1) SOT23
A
B C
H
K
M
K1
D
J
2)
F
L
G
SOT23
Dim
Min
Max
Typ
A
0.37
0.51
0.40
B
1.20
1.40
1.30
C
2.30
2.50
2.40
D
0.89
1.03 0.915
F
0.45
0.60 0.535
G
1.78
2.05
1.83
H
2.80
3.00
2.90
J
0.013 0.10
0.05
K
0.903 1.10
1.00
K1
0.400
L
0.45
0.61
0.55
M
0.085 0.18
0.11
0°
8°
α
All Dimensions in mm
SM8
E
A
E1
A1
b
D
e
15°
e1
45°
SM-8
Dim Min Max
Typ
A
1.7
−
−
A1
0.02
0.1
−
b
0.7
−
−
c
0.24 0.32
−
D
6.3
6.7
−
e
1.53
−
−
e1
4.59
−
−
E
6.7
7.3
−
E1
3.3
3.7
−
L
0.9
−
−
All Dimensions in mm
c
L
ZXCT1009
Document number: DS33441 Rev. 12 - 2
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April 2011
© Diodes Incorporated
ZXCT1009
HIGH-SIDE CURRENT MONITOR
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Copyright © 2011, Diodes Incorporated
www.diodes.com
ZXCT1009
Document number: DS33441 Rev. 12 - 2
8 of 8
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April 2011
© Diodes Incorporated