Flexible emi filtering – Rainbow Electronics MAX9937 User Manual

In this case, R

RS

= R

RSP

= R

RSN

,

ΔR

RS

depends on the

tolerance of the R

RS

resistors used, and

ΔI

B

= input off-

set current of the amplifier.

The temperature drift of these parameters similarly add
up to give a final result.

Shown below is an example calculation of V

OS

at

+25°C:

With V

OS

= ±1.2mV (max), I

B

= 5.6µA (max),

ΔI

B

=

±12% (max) of 5.6µA (max) = ±0.67µA (max), and R

RS

= 500

Ω with ±1% tolerance (i.e., ΔR

RS

= ±5

Ω max)

V

OS-FINAL

= 1.25mV (max).

Flexible EMI Filtering

Real-world applications of current-sense amplifiers
need to measure currents precisely in the presence of
a wide variety of input transients. For example, fast
load-current transients when measuring at the input of a
switching buck regulator can cause high-frequency dif-
ferential sense voltages to occur at inputs of the
MAX9937, although the signal of interest is the average
DC value. Alternately, parasitic voltage pickup on a dis-
connected or long cable can cause common-mode
voltage transients to occur at inputs of the MAX9937,
which are required to be rejected effectively.

The MAX9937 allows two methods of filtering to help
improve performance in the presence of input common-
mode voltage and input differential-voltage transients
(see Figure 1).

The capacitor C

IN

between RS+ and RSN helps filter

against input differential voltages, and prevents them
from reaching the MAX9937. The corner frequency of
this filter is determined by the choice of R

RSN

and C

IN

.

Similarly, capacitor C

OUT

from OUT to ground helps fil-

ter the output voltage, thus providing not only differen-
tial filtering, but also filtering for input common-mode
transients that have made it past the MAX9937. The
corner frequency of this filter is similarly determined by
choice of R

OUT

and C

OUT

. Note: The MAX9937 is a

current-output device, and has the ability to drive an
infinite amount of load capacitance.

f

R

COUT

C OUT

OUT

−

=

×

1

2

π

f

R

C

C IN

RSN

IN

−

=

×

1

2

π

MAX9937

Automotive Current-Sense Amplifier

with Reverse-Battery Protection

_______________________________________________________________________________________

9

LOAD

MICROCONTROLLER

ADC

R

SENSE

GND

OUT

V

CC

RS+

RS-

R

RSN

499

Ω

R

RSP

499

Ω

R

OUT

10k

Ω

5V

RSP

RSN

BIAS

BLOCK

V

BAT

= 4V

TO 28V

MAX9937

C

OUT

*

1nF

C

IN

*

220nF

*FILTER CAPACITORS ARE OPTIONAL.

GAIN = V

OUT

V

SENSE

= R

OUT

R

RSP

Figure 1. Typical Application Circuit with Optional External Filtering