TSM101CN STMicroelectronics, TSM101CN Datasheet - Page 7

TSM101CN

Manufacturer Part Number

TSM101CN

Description

IC CTRLR VOLTAGE/CURRENT 8-DIP

Manufacturer

STMicroelectronics

Datasheet

1.TSM101CDT.pdf (13 pages)

Specifications of TSM101CN

Function

Charge Management

Battery Type

All Battery Types

Voltage - Supply

4.5 V ~ 32 V

Operating Temperature

-20°C ~ 80°C

Mounting Type

Through Hole

Package / Case

8-DIP (0.300", 7.62mm)

Output Current

1.5 A

Input Voltage

30 V

Mounting Style

Through Hole

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

497-5443-5
TSM101CN

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If pin 2 is connected to ground, the internal current

source is enabled, the current measurement is

off-setted by a voltage equal to :

This can be used to lower the charging current or

eventually to stop the charge, if V

In our example, the current offset is equal to 700 -

200mA = 500mA, representing a voltage offset

Vr4 = 140mV across R4.

The following values are used on the application

board :

Figure 3 : SMPS Using the TSM101

5 - IMPROVEMENT

5.1. High frequency compensation

Two R-C devices (R9 + C2 & R10 + C3) are used

to stabilize the regulation at high frequencies.

The calculation of these values is not easy and is

a function of the transfer function of the SMPS.

A guess value for the capacitors C2 and C3 is

100nF.

5.2. Power supply for TSM101

In applications requiring low voltage battery

charge or when the charger is in current regulation

mode, the output voltage can be too low to supply

correctly the TSM101.

The same problem occurs when the output is

short-circuited.

A solution to provide a quasi constant supply volt-

age to the TSM101 is shown at figure 4 : an auxil-

Vr4 = Io x R4 with Io = 1.4mA

R5 = 4 *1.2

R4 = 100

R2 = 1.2k

0.5W in parallel

> V

4 - SCHEMATIC DIAGRAM

Figure 2 represents a schematic of the output cir-

cuit of a “classical” SMPS using a TL431 for volt-

age regulation. This circuit is modified to use

theTSM101 and the final circuit is represented in

figure 3.

iary winding is added at the secondary side of the

transformer.

This winding is forward coupled to the primary

winding, the voltage across it is directly propor-

tional to the mains rectified voltage, even if the fly-

back voltage is close to zero.

As this auxiliary winding is a voltage source, it is

necessary to add a resistor (R11) on the cathode

of the rectifier (D3) to limit the current.

A low cost regulator (Q2 and Zener diode D4) is

used to power the TSM101. This is necessary with

autoranging SMPS with wide input voltages, for

example 90 to 240V without switching. In standard

SMPS with voltage range from 200 to 240VAC or

100 to 130VAC, this regulator can be removed

and replaced by the small power supply shown on

figure 5 (Raux, Caux, D2).

R3 = 220

R9 = short circuit

R1 = 10k

C2 = 100nF

C5 = 100nF

C1 = output capacitor of the SMPS

C4 = 10 F

TSM101/A

7/13

TSM101CN STMicroelectronics, TSM101CN Datasheet - Page 7

TSM101CN

Specifications of TSM101CN

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