IC-NZN_14 Datasheet, PDF(12/17 Page) IC-Haus GmbH

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IC-NZN_14 Datasheet, PDF (12/17 Pages) IC-Haus GmbH – N-TYPE LASER DIODE DRIVER

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iC-NZN

N-TYPE LASER DIODE DRIVER

CURRENT CONTROL

Rev C1, Page 12/17

The iC-NZN also supports laser current control, when

no monitor diode is present. For that purpose, a frac-

tion of the current ï¬owing through the laser diode is

provided at IMON pin (ILDK / 240, cf. Electrical Char-

acteristics No. 407). Tables 7 and 8 show how to set

the inputs for laser control depending on the input in-

terface selected (TTL or LVDS).

Laser control in TTL mode (TTL = high/open)

EN NSLP AVG REGE SYN Mode

low/open - -

- Power save mode

low/open open high

low LDA charged, laser off

high

open high

high high/open high LDA charged, laser on, regulated

Table 7: Laser control in TTL mode

Laser control in LVDS mode (TTL = Low)

EP EN NSLP AVG REGE SYN Mode

low/open - -

- Power save mode

< EN > EP high

low LDA charged, laser off

> EN < EP high

high high/open high LDA charged, laser on, regulated

Table 8: Laser control in LVDS mode

The laser current is set by means of resistor RMON

(= RMD + PMD).

RMON = V (RVDD) â V (MD)

IMON

Figure 7 shows the typical set-up for current control.

Best performance recommendations

The operating point for the laser diode is stored in

an on-chip capacitor. This permits a fast start-up but

can make the regulated system unstable under cer-

tain conditions such as inadequate PCB layout. In

these cases, an optional capacitor can be connected

as close as possible to the chip, across pins CI and

CIS.

External capacitor mode

In applications where an external capacitor is required

(see best performance recommendations below), the

external capacitor mode must be enabled (pin CID =

high). This connects the capacitor to the control cir-

cuit and additionally enables a pull-down current at pin

CI to prevent this capacitor from being charged due

to residual currents (cf. Electrical Characteristics No.

406).

Special care must be taken in PCB layout when laying

out the path from the laser diodeâs cathode via pin LDK

to AGND. This path must be kept as short as possi-

ble to avoid parasitic inductances. A snubber network

across the laser diode also helps to compensate for

these parasitic inductances.

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