DIODES ZXCT1010E5TA

ZXCT1010
ENHANCED HIGH-SIDE CURRENT MONITOR
DESCRIPTION
The ZXCT1010 is a high side current sense monitor.
Using this device eliminates the need to disrupt the
ground plane when sensing a load current.
APPLICATIONS
It is an enhanced version of the ZXCT1009 offering
reduced typical output offset and improved accuracy
at low sense voltage.
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 its SOT23-5 package make suitable for portable
battery equipment.
•
Battery chargers
•
Smart battery packs
•
DC motor control
•
Over current monitor
•
Power management
•
Programmable current source
APPLICATION CIRCUIT
FEATURES
•
Low cost, accurate high-side current sensing
•
Output voltage scaling
•
Up to 2.5V sense voltage
•
2.5V – 20V supply range
•
300nA typical offset current
•
3.5µA quiescent current
•
1% typical accuracy
•
SOT23 -5 package
ORDERING INFORMATION
DEVICE
REEL
SIZE
TAPE
WIDTH
QUANTITY PER
REEL
ZXCT1010E5TA
7”
8mm
3,000 units
PARTMARK
101
PACKAGE
SOT23-5
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SEMICONDUCTORS
ZXCT1010
ABSOLUTE MAXIMUM RATINGS
Voltage on any pin
Continuous output current, IOUT,
Continuous sense voltage, VSENSE2,
Operating temperature, TA,
Storage temperature
Package power dissipation
SOT23-5
-0.6V to 20V (relative to GND)
25mA
-0.5V to +5V
-40 to 85°C
-55 to 150°C
(TA = 25°C)
300mW
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
Test Conditions TA = 25°C, Vin = 5V, Rout = 100Ω.
SYMBOL
PARAMETER
CONDITIONS
LIMITS
Min
V in
V CC Range
I out 1
Output current
Ground pin
current
Iq
V sense 2
Sense Voltage
I sense -
V sense -
Typ
2.5
UNIT
Max
20
V
V sense = 0V
0
0.3
10
µA
V sense = 10mV
85
100
115
µA
V sense = 100mV
0.975
1.00
1.025
mA
V sense = 200mV
1.95
2.00
2.05
mA
V sense = 1V
9.7
10.0
10.3
mA
3.5
8
µA
2500
mV
100
nA
2.5
%
V sense = 0V
0
input current
Acc
Accuracy
R sense = 0.1Ω
V sense = 200mV
Gm
-2.5
10000
µA/V
V SENSE(DC) = 10mV, Pin = -40dBm ‡
300
kHz
VSENSE(DC) = 100mV, Pin = -20dBm ‡
2
MHz
Transconducta
nce,
I out / V sense
BW
Bandwidth
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
3
-20dBm=63mVp-p into 50Ω
2
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SEMICONDUCTORS
ZXCT1010
TYPICAL CHARACTERISTICS
ISSUE 10 - JULY 2007
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SEMICONDUCTORS
ZXCT1010
PIN DESCRIPTION
Pin Name
Pin Function
V sense +
Supply voltage
V sense -
Connection to load/battery
I out
Output current, proportional to V in -V load
GND
Ground
CONNECTION DIAGRAM
SOT23-5
Package Suffix – E5
Top View
SCHEMATIC DIAGRAM
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SEMICONDUCTORS
ZXCT1010
POWER DISSIPATION
APPLICATIONS 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 lines describe how to scale a load
current to an output voltage.
Vsense = Vin - Vload
Vout = 0.01 x Vsense x Rout1
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) Watts
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
=> 0.1 ohms.
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) = 100 Ω
TYPICAL CIRCUIT APPLICATION
Where Rload represents any load including DC motors,
a charging battery or further circuitry that requires
monitoring, R sense can be selected on specific
requirements of accuracy, size and power rating.
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SEMICONDUCTORS
ZXCT1010
Bi-Directional Current Sensing
APPLICATIONS INFORMATION (Continued)
FZT789A 140µH
Charger Input
BC81725
The ZXCT1010 can be used to measure current
bi-directionally, if two devices are connected as
shown below.
To Battery +
0.2Ω
ZHCS1000
1kΩ
Vin
Load
100Ω
BAS16
10µH
+ -
5V
bq2954
MOD pin
ZXCT1010
FMMT451
220Ω
Iout
SNS pin
100Ω
support components omitted for clarity
Li-Ion Charger Circuit
The above figure shows the ZXCT1010 supporting
the Benchmarq bq2954 Charge Management IC.
Most of the support components for the bq2954 are
omitted for clarity. This design also uses the Zetex
FZT789A high current Super-␤ 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.
If the voltage V1 is positive with respect to the
voltage V2 the lower device will be active, delivering
a proportional output current to Rout. Due to the
polarity of the voltage across Rsense, the upper
device will be inactive and will not contribute to the
current delivered to Rout. When V2 is more positive
than V1, current will be flowing in the opposite
direction, causing the upper device to be active
instead.
Non-linearity will be apparent at small values of
Vsense due to offset current contribution. Devices
can use separate output resistors if the current
direction is to be monitored independently.
Bi-directional Transfer Function
Output Current (mA)
5
4
3
2
1
0
-400
-200
0
200
400
Sense Voltage (mV)
Output Current v Sense Voltage
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SEMICONDUCTORS
ZXCT1010
APPLICATIONS INFORMATION (Continued)
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 NTC of 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 at
www.zetex.com/isense
Actual Size
Layout shows area of shunt
resistor compared to SOT23-5
package. Not actual size
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SEMICONDUCTORS
ZXCT1010
Definitions
Product change
Zetex Semiconductors reserves the right to alter, without notice, specifications, design, price or conditions of supply of any product or service.
Customers are solely responsible for obtaining the latest relevant information before placing orders.
Applications disclaimer
The circuits in this design/application note are offered as design ideas. It is the responsibility of the user to ensure that the circuit is fit for the user's
application and meets with the user's requirements. No representation or warranty is given and no liability whatsoever is assumed by Zetex with
respect to the accuracy or use of such information, or infringement of patents or other intellectual property rights arising from such use or
otherwise. Zetex does not assume any legal responsibility or will not be held legally liable (whether in contract, tort (including negligence),
breach of statutory duty, restriction or otherwise) for any damages, loss of profit, business, contract, opportunity or consequential loss in the use
of these circuit applications, under any circumstances.
Life support
Zetex products are specifically not authorized for use as critical components in life support devices or systems without the express written
approval of the Chief Executive Officer of Zetex Semiconductors plc. As used herein:
A. Life support devices or systems are devices or systems which:
1. are intended to implant into the body
or
2. support or sustain life and whose failure to perform when properly used in accordance with instructions
for use provided in the labeling can be reasonably expected to result in significant injury to the user.
B. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to cause the
failure of the life support device or to affect its safety or effectiveness.
Reproduction
The product specifications contained in this publication are issued to provide outline information only which (unless agreed by the company in
writing) may not be used, applied or reproduced for any purpose or form part of any order or contract or be regarded as a representation relating
to the products or services concerned.
Terms and Conditions
All products are sold subjects to Zetex' terms and conditions of sale, and this disclaimer (save in the event of a conflict between the two when the
terms of the contract shall prevail) according to region, supplied at the time of order acknowledgement.
For the latest information on technology, delivery terms and conditions and prices, please contact your nearest Zetex sales office.
Quality of product
Zetex is an ISO 9001 and TS16949 certified semiconductor manufacturer.
To ensure quality of service and products we strongly advise the purchase of parts directly from Zetex Semiconductors or one of our regionally
authorized distributors. For a complete listing of authorized distributors please visit: www.zetex.com/salesnetwork
Zetex Semiconductors does not warrant or accept any liability whatsoever in respect of any parts purchased through unauthorized sales
channels.
ESD (Electrostatic discharge)
Semiconductor devices are susceptible to damage by ESD. Suitable precautions should be taken when handling and transporting devices. The
possible damage to devices depends on the circumstances of the handling and transporting, and the nature of the device. The extent of damage
can vary from immediate functional or parametric malfunction to degradation of function or performance in use over time. Devices suspected of
being affected should be replaced.
Green compliance
Zetex Semiconductors is committed to environmental excellence in all aspects of its operations which includes meeting or exceeding regulatory
requirements with respect to the use of hazardous substances. Numerous successful programs have been implemented to reduce the use of
hazardous substances and/or emissions.
All Zetex components are compliant with the RoHS directive, and through this it is supporting its customers in their compliance with WEEE and
ELV directives.
Product status key:
"Preview"Future device intended for production at some point. Samples may be available
"Active"Product status recommended for new designs
"Last time buy (LTB)"Device will be discontinued and last time buy period and delivery is in effect
"Not recommended for new designs"Device is still in production to support existing designs and production
"Obsolete"Production has been discontinued
Datasheet status key:
"Draft version"This term denotes a very early datasheet version and contains highly provisional
information, which may change in any manner without notice.
"Provisional version"This term denotes a pre-release datasheet. It provides a clear indication of anticipated performance. However, changes to
ISSUE 10 - JULY 2007
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SEMICONDUCTORS
ZXCT1010
PAD LAYOUT DETAILS
PACKAGE DIMENSIONS
Controlling dimensions are in millimeters. Approximate conversions are given in inches
PACKAGE DIMENSIONS
DIM
Millimeters
Inches
MIN
MAX
MIN
MAX
A
0.90
1.45
0.035
0.057
A1
0.00
0.15
0.00
A2
0.90
1.3
b
0.35
C
D
DIM
Millimeters
Inches
MIN
MAX
MIN
MAX
E
2.60
3.00
0.102
0.118
0.006
E1
1.50
1.75
0.059
0.069
0.035
0.051
e
0.95 REF
0.037 REF
0.50
0.014
0.020
e1
1.90 REF
0.075 REF
0.09
0.20
0.0035
0.008
L
0.10
0.60
0.004
0.024
2.80
3.00
0.110
0.118
a°
0
10
0
10
© Zetex Semiconductors plc 2007
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Telephone (44) 161 622 4444
Fax: (44) 161 622 4446
[email protected]
ISSUE 10 - JULY 2007
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SEMICONDUCTORS