M02061_17 Datasheet, PDF(36/45 Page) M/A-COM Technology Solutions, Inc.

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M02061_17 Datasheet, PDF (36/45 Pages) M/A-COM Technology Solutions, Inc. – 3.3 or 5 Volt Laser Driver

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M02061-12/-21

3.3 or 5 Volt Laser Driver

Rev V6

3.3.9

TX Disable Control

The DIS pin is used to disable the transmit signal (both the modulation and bias current are disabled when DIS =

high).

The DIS input is compatible with TTL levels regardless of whether VCC = 5V or VCC = 3.3V. The external 4.7kÎ©

and 10kÎ© pull-up resistor required by most interface standards is not needed because this pin has an internal 7kÎ©

resistor to VCC.

3.3.10

Monitor Outputs

To facilitate complying with laser safety and DDMI1 requirements, output monitors are provided for transmit power

(TxPwrMON) bias (BIASMON) and modulation current (MODMON).

These outputs will source current proportional to the emitted optical power (TxPwrMON) the bias current (BIASMON)

and modulation current (MODMON). These pins should be terminated with a resistor to ground that sets the desired

full-scale voltage (not to exceed VCC3-1V). Using a monitor polarity selection (MONPOL) these monitors can be set

to sink current instead of source current. They will then need to be terminated with a resistor to VCC3 and the

induced voltage should not exceed 2.5V.

If the outputs of these monitors are not needed, MONPOL, TxPwrMON, BIASMON, and MODMON can all be left

floating and the chip current consumption will be reduced by the value of the monitor currents.

3.4

Laser Eye Safety

Using this laser driver in the manner described herein does not ensure that the resulting laser transmitter complies

with established standards such as IEC 825. Users must take the necessary precautions to ensure that eye safety

and other applicable standards are met. Note that determining and implementing the level of fault tolerance

required by the applications that this part is going into is the responsibility of the transmitter designer and

manufacturer since the application of this device cannot be controlled by MACOM.

3.4.1

Safety Circuitry

On the M02061-12 with DISDLY on pin 8, SCB is internally bonded to ground so SCB is always in a logic low state.

When SCB is high the OUTP, BIASout and SVCC outputs will not be disabled when FAIL asserts (FAIL goes high).

The outputs are only disabled by making DIS high.

The FAIL output will also ignore much of the safety sensing circuitry when SCB is high. However, it will monitor the

state of the window comparators at pin APCSET. The bias current is controlled to nominally maintain the voltage at

APCSET to 1.3V. The threshold levels at the window comparators around APCSET are specified by the parameters

VBH and VBL as shown in the table below. This provides the same level of eye safety protection as our previous

generation of laser drivers. The current sourced out of pin APCSET is equal to the current into pin IPIN sourced from

the laser monitor photo diode. If the laser is emitting excess power this will be reflected in the IPIN current and the

voltage at APCSET will go high and the FAIL pin will assert. If IPIN is not connected to the laser monitor photo diode

then the voltage at APCSET will fall and FAIL will assert.

When SCB is low, safety circuitry in the M02061 will disable the modulation and bias current and assert the FAIL

output immediately upon detecting a fault condition. In addition, the supply voltage that sources the laser (SVCC or

M/A-COM Technology Solutions Inc. (MACOM) and its affiliates reserve the right to make changes to the product(s) or information contained herein without notice.

Visit www.macom.com for additional data sheets and product information.

For further information and support please visit:

http://www.macom.com/support

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