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THORLABS DET10A User Manual Download Page 7

Si Biased Detector

Chapter 4: Operation

Rev I, September 28, 2017

Page

5

Photoconductive

In photoconductive mode, an external reverse bias is applied, which is the basis
for our DET series detectors. The current measured through the circuit indicates
illumination of the device; the measured output current is linearly proportional to
the input optical power. Applying a reverse bias increases the width of the
depletion junction producing an increased responsivity with a decrease in junction
capacitance and produces a very linear response. Operating under these
conditions does tend to produce a larger dark current but this can be limited based
upon the photodiode material. (Note: The DET detectors are reverse biased and
cannot be operated under a forward bias.)

Note

The DET detectors are reverse biased and cannot be operated under

forward bias conditions.

Photovoltaic

In photovoltaic mode the photodiode is zero biased. The flow of current out of the
device is restricted and a voltage builds up. This mode of operation exploits the
photovoltaic effect which is the basis for solar cells. The amount of dark current is
kept at a minimum when operating in photovoltaic mode.

4.4. Dark

Current

Dark current is leakage current which flows when a bias voltage is applied to a
photodiode. Photoconductive mode tends to generate a higher dark current that
varies directly with temperature. It can be inferred that dark current can
approximately double for every 10 °C increase in temperature, and shunt
resistance can double for every 6 °C rise. Of course, applying a higher bias will
decrease the junction capacitance but will increase the amount of dark current
present.

The dark current present is also affected by the photodiode material and the size
of the active area. Silicon devices generally produce low dark current compared to
germanium devices which have high dark currents. The table below lists several
photodiode materials and their relative dark currents, speeds, sensitivity, and
costs.

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Summary of Contents for DET10A

Page 1: ...DET10A M Si Biased Detector User Guide...

Page 2: ...h and Response 6 4 7 Terminating Resistance 7 4 8 Shunt Resistance 7 4 9 Series Resistance 7 4 10 Battery Check 7 4 11 Battery Replacement 8 Chapter 5 Common Operating Circuits 9 Chapter 6 Troubleshoo...

Page 3: ...ol Description Direct Current Alternating Current Both Direct and Alternating Current Earth Ground Terminal Protective Conductor Terminal Frame or chassis Terminal Equipotentiality On Supply Off Suppl...

Page 4: ...he DET10A M includes a removable 1 optical coupler SM1T1 providing easy mounting of ND filters spectral filters fiber adapters SMA FC and ST style and other 1 stackable lens mount accessories offered...

Page 5: ...ty Note the input impedance of your measurement device since this will act as a terminating resistor A load resistor is not necessary when using current measurement devices 3 Power the DET on using th...

Page 6: ...ity based upon the incident light Depicted in Figure 1 is a junction photodiode model with basic discrete components to help visualize the main characteristics and gain a better understanding of the o...

Page 7: ...photodiode is zero biased The flow of current out of the device is restricted and a voltage builds up This mode of operation exploits the photovoltaic effect which is the basis for solar cells The am...

Page 8: ...e bandwidth and the response of a photodiode It should be noted that larger diode areas encompass a greater junction volume with increased charge capacity In a reverse bias application the depletion w...

Page 9: ...ode material For example and InGaAs detector has a shunt resistance on the order of 10 M while a Ge detector is in the k range This can significantly impact the noise current on the photodiode For mos...

Page 10: ...labs only recommends using an Energizer battery in our DET series of photodetectors The battery supplied will deliver about 40 hours with a 1 mA load roughly equivalent to a continuous 1 5 mW light so...

Page 11: ...generated is based upon the incident light and wavelength and can be viewed on the oscilloscope by attaching a load resistance on the output The function of the RC Filter is to filter any high freque...

Page 12: ...oss the photodiode since point A is held at the same potential as point B by the operational amplifier This eliminates the possibility of dark current Photoconductive mode The photodiode is reversed b...

Page 13: ...loscopes will have a 1 M input impedance Point the detector toward a fluorescent light and verify that a 60 Hz 50 Hz outside the US signal appears on the scope If so the device should be operating pro...

Page 14: ...battery voltage drops below 9 6 V The reverse protection diode generates a 0 6 V drop Electrical Specifications Detector Silicon Active Area 1 0 mm 0 8 mm2 Wavelength Rangea 200 to 1100 nm Peak Wavele...

Page 15: ...d Detector Chapter 7 Specifications Rev I September 28 2017 Page 13 7 1 Response Curve 0 00 0 10 0 20 0 30 0 40 0 50 200 300 400 500 600 700 800 900 1000 1100 Responsivity A W Wavelength nm Spectral R...

Page 16: ...32 x 0 25 Thread M4 x 6 35mm for EC 26 2 mm 1 03 in 19 1 mm 0 75 in 16 2 mm 0 64 in 48 0 mm 1 89 in 53 3 mm 2 10 in 70 1 mm 2 76 in 43 2 mm 1 70 in Battery Position Indicator Power Switch A Battery Ca...

Page 17: ...Si Biased Detector Chapter 8 Certificate of Conformance Rev I September 28 2017 Page 15 Chapter 8 Certificate of Conformance...

Page 18: ...oducts such as Pure OEM products that means assemblies to be built into a unit by the user e g OEM laser driver cards Components Mechanics and optics Left over parts of units disassembled by the user...

Page 19: ...ope thorlabs com Scandinavia Thorlabs Sweden AB Bergfotsgatan 7 431 35 M lndal Sweden Tel 46 31 733 30 00 Fax 46 31 703 40 45 www thorlabs com Email scandinavia thorlabs com France Thorlabs SAS 109 ru...

Page 20: ...www thorlabs com...

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