ADN2841(2002) データシートの表示（PDF） - Analog Devices

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ADN2841
(Rev.:2002)

Dual-Loop 50 Mbps–2.7 Gbps Laser Diode Driver

Analog Devices 

ADN2841

GENERAL

Laser diodes have current-in to light-out transfer functions as shown

in Figure 2. Two key characteristics of this transfer function are the

threshold current, ITH, and the slope in the linear region beyond

the threshold current, referred to as slope efficiency, LI.

ER

=

P1

P0

P1

PAV

=

P1

+ P0

2

⌬P

PAV

⌬I

LI =

⌬P

⌬I

P0

ITH CURRENT

Figure 2. Laser Transfer Function

CONTROL

A monitor photodiode (MPD) is required to control the LD. The

MPD current is fed into the ADN2841 to control the optical

power and extinction ratio, continuously adjusting the bias current

and modulation current in response to the laser’s changing

threshold current and light-to-current (LI) slope (slope efficiency).

The ADN2841 uses automatic power control (APC) to main-

tain a constant power over time and temperature.

The ADN2841 uses closed-loop extinction ratio control to allow

optimum setting of extinction ratio for every device. Therefore,

SONET/SDH interface standards can be met over device varia-

tion, temperature, and time. Closed-loop modulation control

eliminates the need to either overmodulate the LD or include

external components for temperature compensation. This reduces

research and development time and second-sourcing issues

caused by characterizing LDs.

Average power and extinction ratio are set using the PSET and

ERSET pins, respectively. Potentiometers are connected between

these pins and ground. The potentiometer RPSET is used to

change the average power. The potentiometer RERSET is used

to adjust the extinction ratio. Both PSET and ERSET are

kept 1.23 V above GND.

RPSET and RERSET can be calculated using the following formulas:

RPSET

= 1.23V

I AV

where IAV is the average MPD current.

RERSET

=

I MPD–CW

PCW

1.23V

×

ER

ER

−1

+1

×

0.2

×

PAV

where PCW is the dc optical power specified on the laser data

sheet, IMPD_CW is the MPD current at that specified PCW, and

PAV is the required average power.

Note that IERSET and IPSET will change from device to device.

However, the control loops will determine actual values. It is not

required to know the exact values for LI or MPD optical coupling.

LOOP BANDWIDTH SELECTION

For anyrate operation, the user should hardwire the LBWSET

pin high and use 1 µF capacitors to set the actual loop band-

width. These capacitors are placed between the PAVCAP and

ERCAP pins and ground. It is important that these capacitors

be low leakage multilayer ceramics with an insulation resistance

greater than 100 GΩ or a time constant of 1000 sec, whichever

is less. The ADN2841 may be optimized for 2.7 Gbps operation

by keeping the LBWSET pin low. This results in a much shorter

loop time constant (a 10ϫ reduction). The value of PAVCAP

and ERCAP capacitors required for 2.5 Gbps operation is 22 nF.

ALARMS

The ADN2841 alarms are designed to allow interface compliance

to ITU-T-G958 (11/94) section 10.3.1.1.2 (transmitter fail) and

section 10.3.1.1.3 (transmitter degrade). The ADN2841 has

two active high alarms, DEGRADE and FAIL. A resistor between

ground and the ASET pin is used to set the current at which

these alarms are raised. The current through the ASET resistor is

a ratio of 100:1 to the FAIL alarm threshold. The DEGRADE

alarm will be raised at 90% of this level.

Example:

IFAIL = 50 mA ∴ IDEGRADE = 45 mA

I ASET

=

I BIASTRIP

100

= 50 mA = 500 µA

100

1.23V 1.23V

RASET = IASET = 500 µA = 2.46 kΩ

NOTE: The smallest value for RASET is 1.2 kΩ, as this corre-

sponds to the IBIAS maximum of 100 mA.

The laser degrade alarm, DEGRADE, gives a warning of imminent

laser failure if the laser diode degrades further or environmental

conditions, e.g., increasing temperature, continue to stress the LD.

The laser fail alarm, FAIL, is activated when the transmitter can

no longer be guaranteed to be SONET/SDH compliant. This

occurs when one of the following conditions arises:

• The ASET threshold is reached.

• The ALS pin is set high. This shuts off the modulation and

bias currents to the LD, resulting in the MPD current

dropping to zero. This gives closed-loop feedback to the

system in which ALS has been enabled.

DEGRADE will only be raised when the bias current exceeds

90% of ASET current.

MONITOR CURRENTS

IBMON, IMMON, IMPDMON, and IMPDMON2 are

current controlled current sources from VCC. They mirror the

bias, modulation, and MPD current for increased monitoring

functionality. An external resistor to GND gives a voltage

proportional to the current monitored.

DUAL MPD DWDM FUNCTION (48-LEAD LFCSP ONLY)

The ADN2841 has circuitry for an optional second monitor

photodiode, MPD2.

–6–

REV. A

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