InGaAs APD / PIN Modules

InGaAs APD / PIN Modules

InGaAs PIN Photodiode Modules for Telecom Applications

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The OSI Laser Diode Inc. InGaAs PIN detector provides both small size and high performance in a miniature coaxial module. Designed to provide high responsivity and low leakage, LDI’s detector modules exhibit low back reflection along with low polarization dependent loss (PDL). The detector module offers high reliability satisfying TELCORDIA GR-468-CORE. The LPD 3080 coaxial devices are available with either a 245um or 900 um jacketed fiber and are available at two back reflection levels.

LAPD 3050 InGaAs APD Module

1550nm

The LAPD 3050 is a 50um InGaAs APD housed in a hermetic 3 pin coaxial package. The APD is coupled to a singlemode
fiber pigtail. The low noise, overload tolerant LAPD 3050 coax APD makes the devices ideal for OTDRs, line receivers and
any other light level detection/ signal transmission application.

APD Applications Notes

LDI General APD Design/Use Considerations:
This summary is intended to serve as a general guideline/checklist and overview in achieving optimum performance when incorporating LDI’s lnGaAs APD into a new design.
APDs are typically used in applications requiring both high bandwidth and high sensitivity. The operational wavelength of the APD is determined by its material composition. Two of the more common APD material types are Silicon and lnGaAs. Silicon is used primarily at the shorter wavelengths (~850nm) whereas InGaAs is typically used at the longer (1310, 1550, 1625 nm) wavelengths. The APD described herein available from LDI is a Mesa structure InGaAs APD.
APD’s differ from a photodiode in that they offer gain. Although this is a primary advantage of APDs, other characteristics that should also be considered when selecting a device are the operating wavelength, bandwidth, noise and signal handling capability of the device.
Several key points should be reviewed when developing a new design to insure that the best performance level can be achieved and that any new layout or design being considered has taken these into consideration. The following is an abbreviated list of general guidelines to consider when implementing LDI’s InGaAs APD into a new design.
-Standard RF practices should be utilized when implementing new circuit card layout to minimize
parasitic effects and maximize bandwidth performance. Minimize APD component lead lengths as practical.

-The use of current limiting in the reverse operating DC bias voltage line is recommended to protect against APD damage. This would insure that the maximum recommended APD current is not exceeded. This protection circuitry can be as simple as a resistive limiter or can be more complex and include circuitry which incorporates a hard current limit.

-APD characteristics in general are such that the gain (sensitivity) of the photodiode can be adjusted by varying the reverse bias applied to the device. This feature allows for the APD gain to be set optimally for a given application. It is important to note that in circuits in which the optimum gain setting may be paramount, the reverse operating voltage should be controlled to compensate for any temperature shift of the device parameters as the breakdown voltage and the operating point of device may vary with temperature.

-For low light level non-fibered applications blocking/filtering of ambient light should be considered to minimize interference from unintentional light sources.

-Linear power supply biasing should be considered where possible for low noise applications.

-APD should be located away from heat generating components.
With regards to the APD bias supply, below is a small sampling of available support components and application information for the APO bias control circuitry:

Fiber Coupled InGaAs PIN Photodiode Modules

75 um

OSI Laser Diode, Inc.‘s (LDI) InGaAs PIN detector provides both small size and high performance in a miniature coaxial module. Designed to provide high responsivity and low leakage, LDI’s detector modules exhibit low back reflection along with low polarization dependent loss (PDL). The detector module offers high reliability satisfying TELCORDIA GR-468-CORE. The LPD 3080 coaxial devices are available with either a 245 um or 900 um jacketed fiber and are available at two back reflection levels.