IC-WJ Datasheet, PDF(7/12 Page) IC-Haus GmbH

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

IC-WJ Datasheet, PDF (7/12 Pages) IC-Haus GmbH – LASER DIODE DRIVER

◁

iC-WJ, iC-WJZ

LASER DIODE DRIVER

Rev C1, Page 7/12

For the monitor diode current of 0.25 mA the resistor

RSET is calculated as:

CR1 â V (ISET ) 3 â 1.22 V

RSET =

= 14.6 k â¦

Iav (AMD)

0.25 mA

with Electrical Characteristics No. 301 for V(ISET) and

No. 108 (iC-WJZ) for current ratio CR1.

Figure 4 shows the corresponding signals for a pulse

duty factor of 20 %. The inï¬uence of the pulse duty

factor on the peak value of the monitor current pro-

portional to the laser current is apparent. The average

kept constant by the control (RSET unchanged) means

a peak value increased by the factor 2.5. The pulse

duty factor for which RSET was dimensioned should

therefore be kept constant if possible.

Averaging control

The control of the average optical laser power requires

a capacitor at pin CI. This capacitor is used for aver-

aging and must be adjusted to the selected pulse rep-

etition frequency and the charging current preset with

RSET. The ratios are linear in both cases, i.e. the ca-

pacitor CI must be increased in size proportionally as

the pulse repetition frequency slows or the current from

ISET increases:

CI â¥ 440 â I(ISET ) = 440

f â V (ISET ) f â RSET

Example

Pulse repetition frequency 100 kHz, RSET = 10 kâ¦:

CI = 440 nF, chosen 470 nF.

5.0 V

3.120 V

V(IN)

V(CI)

3.118 V

600 uA

I(AMD)

Time

Figure 4: Steady-state averaging, f(IN) = 100 kHz

(1:4), CI = 470 nF, RSET = 10 kâ¦

3.0 V

Otherwise the charging of the capacitor CI during the

pulse pauses (with I(ISET) = 1.22 V / RSET) will create

an excessive mean value potential and may destroy

the laser diode during the next pulse. The capacitor CI

is correctly dimensioned when the current through the

laser diode and the optical output signal do not show

any overshots following the rising edge.

5.0 V

2.552 V

V(IN)

V(CI)

2.0 V

1.0 V

V(CI)

I(KLD)

2 ms

4 ms

6 ms

8 ms

10 ms

12 ms

Figure 5: Turn-on behavior, f(IN) = 100 kHz (1:1), CI

= 470 nF, RSET = 10 kâ¦

2.550 V

250 uA

I(AMD)

Time

Figure 3: Steady-state averaging control, f(IN) =

100 kHz (1:1), CI = 470 nF, RSET = 10 kâ¦

Turn-on and turn-off behavior

Capacitor CI also determines the starting time from

switching on the supply voltage VCC to steady-state

laser pulse operation or after a discharge of CI by

the watchdog. The following applies to estimating the

starting time (Figure 5):

In steady-state condition and for a pulse duty factor of

50 % (pulse/pause 1:1), signals as shown in Figure 3

are present at the IC pins.

2.5 V â CI 2.5 V â CI â RSET

Ton = I(ISET ) =

1.22 V

▷