5033046040 Datasheet 5033044440, 5033046040 | P1-P3

TS1103 Bidirectional Current-Sense Amplifier

Demo Board

Page 1

FEATURES

 R

SENSE

: 50mΩ ± 0.5%

 Fully Assembled and Tested

 2in x 2in 2-layer circuit board

COMPONENT LIST

DESIGNATION

QTY

DESCRIPTION

47nF ±10%

capacitor (0805)

50mΩ ± 0.5%

(0805)

TS1103-25DB/

TS1103-50DB/

TS1103-100DB/

TS1103-200DB

VDD, VBATT,

VOUT, SIGN,

LOAD

Test points

DESCRIPTION

The demo board for the TS1103 is a completely

assembled and tested circuit board that can be used

for evaluating the bidirectional current-sense amplifier

for all (4) gain options; i.e., 25V/V, 50V/V, 100V/V,

and 200V/V.

The board is configured with an R

SENSE

=R1=50mΩ

resistor. The board has a dedicated RS+=VBATT,

RS-=LOAD, output voltage OUT=VOUT, VDD, and

SIGN test points. For additional information, refer to

the TS1103 product data sheet.

All TS1103s are available in a PCB-space saving

6-lead SOT23 surface-mount package.

Product data sheets and additional documentation

can be found at www.silabs.com.

ORDERING INFORMATION

Order Number

Description

TS1103-25DB

TS1103-XXX

Demo Board

TS1103-50DB

TS1103-100DB

TS1103-200DB

Figure 1. TS1103 Bidirectional Current-Sense Amplifier

Circuit

Figure 2. TS1103 Demo Board

TS1103 Bidirectional Current-Sense Amplifier Demo Board

Page 2 TS1103-EVB Rev. 1.0

DESCRIPTION

The TS1103 demo board includes decoupling

capacitor pads, C1, at the VBATT input pin and a

47nF capacitor at the VOUT output pin. Because the

TS1103 is a bidirectional current-sense amplifier, the

demo board can be set-up to sense current in both

directions. Please refer to Table 2 for the proper

connections of VBATT and LOAD test points. The

direction of the current is known based on the voltage

level of the SIGN pin. If V

RS+

RS-

, the SIGN pin is a

logic HIGH or VDD voltage. If V

RS-

RS+

, the SIGN

pin is a logic LOW or GND voltage. A VDD test point

is available and powers the internal comparator that

monitors the direction of the load current. The output

voltage of the comparator is the voltage on the SIGN

pin.

QUICK START PROCEDURE

Required Equipment

 A TS1103 demo board

 A dual output, DC power supply, an HP Model

HP6624A or equivalent

 Three digital voltmeters

 A load resistor or an active load (value varies

depending on I

LOAD

desired)

Signal

Demo board

RS+

VBATT

RS-

LOAD

OUT

VOUT

GND

VDD

SIGN

Table 1. Demo Board Test Points

Test Point

RS+

RS-

RS+

VBATT

input voltage

load

LOAD

load

input voltage

Table 2. VBATT and LOAD Test Point

Connections Per ILOAD Direction

GAIN

(V/V)

BATT

(V)

LOAD

(mA)

(V)

LOAD

(Ω)

OUT

(V)

MAX

SENSE

(mV)

1600

1.8

3.75

800

1.8

7.5

100

400

1.8

200

1.8

Table 3. Demo Board Test Set-Up Per Gain Setting

To evaluate the TS1103 bidirectional current-sense

amplifier circuit, the following steps are to be

performed:

1) Before connecting the DC power supply to the

demo board, turn on the power supply, set the

DC voltage to 6V on one output and the other to

1.8V. Set the short circuit current limit on each

output to 10% higher than the maximum load

current in the application, and then turn it off.

2) For applications where V

RS+

RS-

, connect the 6V

DC power supply positive terminal to the test

point VBATT and its negative terminal to the test

point GND. Connect the 1.8V power supply

positive terminal to the test point VDD and its

negative terminal to the test point GND. See

Table 2 for applications where V

RS-

RS+.

3) Connect a digital voltmeter to the test points TP+

and TP- to measure V

SENSE

4) Connect the positive terminal of a second digital

voltmeter to the test point VOUT

and the negative

terminal to the test point GND.

5) To monitor the direction of the current, connect

the positive terminal of a third digital voltmeter to

the test point SIGN

and the negative terminal to

the test point GND.

6) Based on the selected gain option of the current

sense amplifier, select the load resistor or an

active load according to Table 3. Connect one

end of this resistor or active load to the test point

LOAD and the other end to the test point GND.

7) Turn on the power supply and observe the output

voltage at VOUT. The expression for the

TS1103’s output voltage is given by:

VOUT = I

LOAD

×50mΩ×

ROUT

RGAIN[A/B]

where the TS1103’s internal ROUT and

RGAIN[A/B] resistor values are listed in Table 4.

GAIN(V/V)

RGAIN[A/B] (Ω)

ROUT (Ω)

400

10k

200

10k

100

10k

200

100

20k

Table 4. TS1103’s Internal Gain Setting

Resistors (typical values)

TS1103 Bidirectional Current-Sense Amplifier Demo Board

Silicon Laboratories, Inc. Page 3

400 West Cesar Chavez, Austin, TX 78701 TS1103-EVB Rev. 1.0

+1 (512) 416-8500 ▪ www.silabs.com

8) The TS1103’s actual output voltage VOUT will

depend on the TS1103’s actual offset voltage

, its gain error GE, sense resistor (R

SENSE

)

tolerance of ±1%, and the load resistor

tolerance/active load accuracy.

Note: For applications where V

RS-

RS+

, connect test

points VBATT and LOAD based on Table 2 and

follow the steps above.

Figure 3. Top Layer Component View

Figure 4. Top Layer Trace View

Figure 5. Bottom Layer (GND)

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