ZXCT1012DAATA Ver la hoja de datos (PDF) - Diodes Incorporated.
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ZXCT1012DAATA Datasheet PDF : 10 Pages
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ZXCT1012
Applications information
The ZXCT1012 current monitor works by converting the voltage developed across a small sense
resistor into a current on the out pin. In reality it is a voltage to current converter. This output
current can be converted into a voltage simply by passing it through a resistor (ROUT) to ground.
The current monitor has a transconductance of 10mA/V. But the overall amplifying conversion is
affected by both the RSENSE and ROUT.
The gain equation of the ZXCT1012 is:
VOUT
=
IL
×
RS
ENSE
R-----O----U----T-
100
For best performance RSENSE should be connected as close to the SENSE+ (and SENSE-) pins;
which minimizes any series resistance with RSENSE and potential for interference pickup.
When choosing appropriate values for RSENSE a compromise must be reached between in-line
signal loss (including potential power dissipation effects) and small signal accuracy.
Higher values for RSENSE gives better accuracy at low load currents by reducing the inaccuracies
due to internal offsets. For best operation the ZXCT1012 has been designed to provide best
performance with VSENSE of the order of 40mV to 200mV.
Current monitors are single supply devices which means they tend to saturate at very low sense
voltages. However it does mean the output can never go negative. Also the output can never
change direction (monotonic). This is important if the current monitor is used in a control loop.
As the sense voltage is reduced the output will tend to saturate as the input offset voltage starts
to have greater effect. It is recommended to have a minimum sense voltage of 10mV to minimize
linearity errors. Zetex has specified the output voltage at VSENSE of 10mV, 40mV, 100mV and
200mV; which is the recommended sense voltage range.
The maximum differential input voltage, VSENSE, is 2.5V; however this will cause large output
currents to flow increasing power dissipation in the chip. The sense voltage can be increased
further, without damaging the ZXCT1012, by the inclusion of a resistor, RLIM, between SENSE- pin
and the load. Typical values around 10k⍀. See figure below.
SENSE
RLIM
CC
ZXCT1012
If large reverse currents are expected then the resistor, RLIM, will provide protection from
exceeding absolute maximum ratings.
A suitable value for RLIM can be determined from:
RLIM
»
-V----S---E----N----S---E----(--R---E---F---)
5mA
Where VSENSE(REV) is the maximum expected reverse sense voltage generated.
Issue 1 - December 2006
5
© Zetex Semiconductors plc 2006
www.zetex.com
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