IC-NZP_11 Datasheet, PDF(8/15 Page) IC-Haus GmbH

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IC-NZP_11 Datasheet, PDF (8/15 Pages) IC-Haus GmbH – P-TYPE LASER DIODE DRIVER

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iC-NZP

P-TYPE LASER DIODE DRIVER

DESCRIPTION OF FUNCTIONS

preliminary

Rev B1, Page 8/15

iC-NZP is a laser diode pulse driver, which features:

â¢ Averaging or peak control

â¢ Optical power or current control

â¢ Laser current limitation

â¢ Pulses of up to 155 MHz in controlled burst mode

â¢ Sleep mode with less than 50 ÂµA consumption

â¢ Extension of the laser current with few external com-

ponents

â¢ Error signalling for overcurrent

OPTICAL POWER CONTROL

The iC-NZP supports the control of the laser diodeâs

optical output power (APC) for all common laser diode

pin conï¬gurations (P, N and M). The control is enabled

with pin REGE set to high. With AVG set to low, the

peak power control is enabled. The laser power level

is selected by means of the resistor RMON (= RMD +

PMD). This control mode can be used for frequencies

up to ca. 4 Mhz. For higher frequencies the averag-

ing control (AVG = high) or the burst mode have to be

used.

Tables 4 and 5 show how to set the inputs for laser

control depending on the input interface selected (TTL

or LVDS).

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

EN NSLP REGE SYN Mode

low/open -

Power-save mode

low/open open high

low VDDA charged, laser off

high

open high

high/open high VDDA charged, laser on, regulated

high

open high

low

high VDDA charged, laser on, burst mode

Table 4: Laser control in TTL mode

Laser control in LVDS mode (TTL = low)

EP EN NSLP REGE SYN Mode

low/open -

- Power-save mode

< EN > EP high

low VDDA charged, laser off

> EN < EP high

high/open high VDDA charged, laser on, regulated

> EN < EP high

low

high VDDA charged, laser on, burst mode

Table 5: Laser control in LVDS mode

RMON dimensioning

Peak control (AVG = low): In order to calculate the right

value of RMON, the value of IM (monitor current with

respect to optical output power) of the laser diode must

be known. RMON must be chosen in a way that the

monitor current generated by the desired output power

creates a voltage drop across RMON of 250 mV (cf.

Electrical Characteristics No. 201).

Averaging control (AVG = high): In this mode the cal-

culation is the same as in peak control, only the result

has to be divided by the duty cycle of the laser pulses,

duty

cycle

e.g.

50%

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