A calibration by Custom-Cal is performed by engineers with extensive OEM experience. We have the expertise and the necessary standards to perform the ILX LIGHTWAVE CSM-39050 Calibration, onsite calibration may be available. We specialize in quick turnaround times and we can handle expedited deliveries upon request.

Need another Laser Diode Controller?
Shop for Comparable Products on our
 used Laser Diode Controller page

   ILX LIGHTWAVE CSM-39050 (39050)   Description / Specification:    
ILX LIGHTWAVE CSM-39050 500 mA Current Source

The ILX LIGHTWAVE CSM-39050 500 mA Current Source is a precision current source module for use in the LDC-3900 Modular Laser Diode Controller. It may be installed in any of the four bays at the rear of the LDC-3900 (and may readily be interchanged with any other LDC-3900 module). Specifications. Current Source; Set Point Accuracy: ±400 µA. Set Point Resolution: 4 µA. Compliance Voltage (fixed): 6.5 V maximum. Temperature Coefficient: < 60 ppm/°C. Stability, for 1 hour: < 20 ppm. Stability, for 24 hours: < 40 ppm. Noise and Ripple High Bandwidth Mode: < 5 µA rms. Noise and Ripple Low Bandwidth Mode: < 3 µA rms. Noise and Ripple CW Mode (with 320 cable): < 1.5 µA rms. Bandwidth High Bandwidth Mode: DC to 200 KHz. Bandwidth Low Bandwidth Mode: DC to 5 KHz. Bandwidth CW Mode (with 320 cable): DC to 30 Hz. Photodiode Feedback; Range: 5 to 5000 µA. Output Stability: ±1 µA. Accuracy: ±2.5 µA. Bias Voltage: 0 - 5 V reverse bias (± 10%) (adjustable on back panel). Laser Drive Current Display; Output Current Range: 0.00 to 500.00 mA. Output Current Resolution: 0.01 mA. Output Current Accuracy at 25°C: ±0.1% of FS. Photodiode Current Range: 0 - 5,000 µA. Photodiode Current Resolution: 1 µA. Photodiode Current Accuracy: ±2 µA. Responsivity Range: 0 - 600.00 µA/mW. Responsivity Resolution: 0.01 µA/mW. Optical Power Range: 0 - 500.00 mW. Output Power Resolution: 0.1 mW. Type: 5-digit green LED. Current Limit Setting; Range: 0 - 500 mA. Resolution: 2 mA. Accuracy: ±5 mA.


Standard Calibration $185.00 *
Click on Logo for More Prices
*This is a Web introductory price for one calibration of the ILX LIGHTWAVE CSM-39050. Price does not in most cases include measurement performance data. Pricing does include NIST traceable calibration and issue of a calibration certificate and calibration label. Pricing may vary slightly due to volume and location of laboratory supporting calibration. Volume pricing may apply. On-site fees may apply depending on logistics, location and volume of work to be completed during the visit.

Related Optical Terms and Definitions. For a complete list go to our  Terms and Definitions Page.

Bit Error Ratio (BER)
Bit Error Ratio (BER) is the ratio of errors caused by the number of bits in a data stream that have been altered due to noise, interference, distoriton or bit synchronization errors.

Variation of insertion loss on the passband of an optical device.

Polarization Dependent Loss (PDL)
Polarization Dependent Loss is the difference between the maximum and minimum values of loss due to the variation of the polarization states of light propagating through a device. PDL is expressed in decibels. Calculated by; PDL = 10 log10 (Ep/Es), where EP and ES are the measured diffraction efficiencies for P- and S-plane polarized incident light, respectively.

Return Loss (RL)
Return Loss (RL) is the ratio of the incident power to the reflected power expressed in dB. RL = 10log (Pin/Pback)

Wavelength Resolution
Wavelength Resolution is the smallest possible displayed wavelength increment/decrement.

Please contact us for your ILX LIGHTWAVE CSM-39050 CALIBRATION and/or ILX LIGHTWAVE CSM-39050 500 mA Current Source REPAIR

I'm interested in: 
Calibration Type (Select one):

Repair Information:
 Serial Number:

 Is there any physical damage?  
 If yes, describe:

What is the description of the problem?

How/when did the problem start?

 (*) Required Fields    For formal quote please fill in all fields.
From (Email):*
Contact Name:*
Address 1:
Address 2:
State/Territory/Province: *
Zip/Postal Code: