Ledset applications – OSRAM OPTOTRONIC Constant current LED power supplies with 3DIM User Manual

35

The circuit confi guration allows setting a hysteresis bet ween

on and off state, thus avoiding spurious and unwanted light

fl ickering/toggling: focusing on the comparator circuit, the

R

1

, R

4

and R

3

resistors set the trip threshold voltages V

TRIP

+

(related to Tset

TH

- ΔT

Hyst

) and V

TRIP

- (related to Tset

TH

).

These V

TRIP

voltages are compared with the voltage

related to the divider realized by the R

2

and NTC resistors.

Based on the NTC characteristic (resistance vs. temperature)

and the pull-up resistor (R

2

in this case), it is possible to tune

the circuit to customer needs. Once the V

NTC

(voltage across

the NTC) becomes higher than V

TRIP

+, the comparator output

goes to low state. Consequently, Q

1

opens and the LED

module is supplied by the current which has been set by the

Rset resistance.

However, when V

NTC

becomes lower than V

TRIP

-, the output

of the comparator turns on Q

1

and thus the Iout becomes

0 mA.

Example:

Requirements:

Tset

TH

= 76 °C

ΔT

Hyst

= 6 °C

Iout = Inom

max

Iout

fault

= 0 mA

LEDset APPLICATIONS

Figure 30: Thermal derating – NTC + OPAMP solution (example).

By selecting the following components,
the result shown in fi gure 30 can be achieved:

R

1

= 100 kΩ 0603 1 % (general purpose)

R

2

= 270 kΩ 0603 1 % (general purpose)

R

3

= 560 kΩ 0603 1 % (general purpose)

R

4

= 36 kΩ 0603 1 % (general purpose)

Rset = 39 kΩ 0603 5 % (general purpose)
R

NTC

= NTCS0805E3683GXT (680 kΩ 2 % 0805) (glass-protected – Vishay)

U

1

= LM2904M – SO8 (general purpose)

Q

1

= BC847 – SOT23 (general purpose)

C

1

= 100 nF X7R 0603 (general purpose)

(by-pass capacitor to be placed as close as possible to the power pins of U1)

Figure 29: NTC + OPAMP solution – real circuit (1) appearance with
connector block (2).

2

1