LDX-3620B Ultra Low Noise Current Source
Contents
1. MAINTENANCE AND CALIBRATION Calibration Laser Diode Measurement Calibration To calibrate the laser diode measurement perform the following after the instrument has been on and warmed up for at least 1 hour the instrument can be calibrated in DC or AC mode of operation 1 Connect a 20 25 ohm load resistor on the output of the LDX 3620B Connect a digital ammeter discussed earlier in this section in series with the output of the laser diode and the test load 2 instrument into 200mA range low bandwidth mode Set the current setpoint to 153mA and turn the output on Ensure the current limit is turned to the maximum 3 Allow the output to settle approximately 10 seconds Slowly adjust R130 on the front panel this can be seen in Figure 3 3 until the front panel measurement matches the actual output current of the instrument measured from the ammeter 4 Turn the output off 5 Swapthe load resistor with a 5 8 ohm load 6 Put the instrument into 500mA range low bandwidth mode Do not change the setpoint from the 200mA range 7 Turn the output on 8 Allow the output to settle approximately 10 seconds Slowly adjust R19 on the mainboard this can be seen in Figure 3 4 until the front panel measurement matches the actual output current of the instrument measured from the ammeter 9 Adjust the setpoint to approximately 5mA Ensure the actual output matches the measured value on the front panel within 0 296 of FS2. Serial Number End user Name Company Phone Fax Description of what is connected to the ILX Lightwave instrument Description of the problem LDX 3620B Lightwave 07 11 If ILX Lightwave determines that a return to factory is necessary you are issued a Return Authorization RA number Please mark this number on the outside of the shipping box You or your shipping service are responsible for any shipping damage when returning the instrument to ILX Lightwave ILX recommends you insure the shipment If the original shipping container is not available place your instrument in a container with at least 3 inches 7 5 cm of compressible packaging material on all sides We look forward to serving you even better in the future LDX 3620B VU xi TT xii LDX 3620B Lightwave CHAPTER INTRODUCTION AND SPECIFICATIONS B a El mH El El El El mH EJ This chapter is an introduction to the LDX 3620B Ultra Low Noise Laser Diode Current Source It contains unpacking information instructions on how to install and apply power and safety considerations and instructions It also contains specifications and information on options and accessories AN warnine If any of the following symptoms exist or are even suspected remove the LDX 3620B from service Do not use the LDX 3620B until trained service personnel can verify safe operation Visible damage
3. without charge Limitations This warranty does not apply to fuses lamps defects caused by abuse modifications or to use of the product for which it was not intended This warranty is in lieu of all other warranties expressed or implied including any implied warranty of merchantability or fitness for any particular purpose ILX Lightwave Corporation shall not be liable for any incidental special or consequential damages If a problem occurs please contact ILX Lightwave Corporation with the instrument s serial number and thoroughly describe the nature of the problem Returning an Instrument If an instrument is to be shipped to ILX Lightwave for repair or service be sure to 1 Obtain a Return Authorization number RA from ILX Customer Service 2 Attach a tag to the instrument identifying the owner and indicating the required service or repair Include the instrument serial number from the rear panel of the instrument 3 Attach the anti static protective caps that were shipped with the instrument and place the instrument in a protective anti static bag 4 Place the instrument in the original packing container with at least inches 7 5 cm of compressible packaging material Shipping damage is not covered by this warranty 5 Secure the packing box with fiber reinforced strapping tape or metal bands 6 Send instrument transportation pre paid to ILX Lightwave Clearly write the return authorization number on the outs
4. Adjust the setpoint to approximately 499mA Ensure the actual output matches the measured value on the front panel within 0 296 of FS Photodiode Measurement Calibration To calibrate the photodiode measurement perform the following after the instrument has been on and warmed up for at least 1 hour the instrument needs to be calibrated in DC mode and not in AC mode of operation 1 Connect the modified 9 pin D SUB connector to the LDX 3620B or alternatively connect the low noise current source to the photodiode auxiliary input If using an external current source set the output to 1mA and turn the output on Skip to step 3 2 Configure the instrument to operate 200mA range Low Bandwidth mode Set the output to 1mA and turn the output on 3 Switch the front panel to display monitor photodiode measurement With 1mA of measured current on the ammeter adjust R41 on the mainboard this can be seen in Figure 3 4 until the front panel measurement matches the measurement taken from the ammeter 4 Adjust the current output of the instrument to 1 9990mA Ensure the front panel matches the measured current within 2 A Perform the same test at 5 A 30 LDX 3620B Lightwave MAINTENANCE AND CALIBRATION Disassembly Disassembly The top cover of the LDX 3620B can be removed after extracting the four countersunk screws on the sides of the instrument The cover is then removed by sliding it rearward and lifting it off Removal
5. Common Laser Cathode Photodiode Anode 12 Figure 2 3 Common Laser Anode Photodiode Cathode 12 Figure 2 4 Common Laser Anode Photodiode Anode 13 Figure 2 5 Rear Panel Laser Output Connector 13 Figure 2 6 Photodiode Feedback Block Diagram 21 Figure 3 1 Battery Replacement 26 Figure 3 2 TR5 Fuse Replacement Position 27 Figure 3 3 200 mA Calibration Potentiometer Position 29 Figure 3 4 Photodiode and 500 mA Measurement Calibration Position 29 Figure 3 5 Top Chassis Cover 31 07_11 LDX 3620B vi LDX 3620B Lightwave SAFETY AND WARRANTY INFORMATION The Safety and Warranty Information section provides details about cautionary symbols used in the manual safety markings used on the instrument and information about the Warranty including Customer Service contact information Safety Information and the Manual Throughout this manual you will see the words Caution and Warning indicating potentially dangerous or hazardous situations which if not avoided could result in death serious or minor injury or damage to the product Specifically CAUTION Caution indicates a potentially hazardous situation which can result in minor or moderate injury or damage to the product or equipment AN warnine Warning indicates a potentially dangerous
6. Laser Diode Current Source we recommend that the instrument be powered up and the laser output off In this condition a low impedance shunt is active across the output terminals When disconnecting devices it is only necessary to disable the current source output It is also recommended that the connections to the current source output be made using twisted wire pairs with an earth grounded shield see Figures 2 1 2 4 The output terminals of the instrument are left floating relative to earth ground to suppress transients that may occur through an earth ground path If the output circuit is earth grounded at some point such as through the laser package laser diode mount or modulation input through a Lightwave OPERATION Connecting to the Laser function generator the user must be careful to avoid multiple earth grounds in the circuit Multiple earth grounds may provide circuit paths that induce spurious currents in the photodiode feedback circuit and output leads Experience indicates that should an open circuit occur during laser operation while the LASER is ON the laser may be damaged by a momentary circuit break and remake before the final circuit break The cable connections to the laser must be secure enough that they will not open circuit should they be jostled or bumped Should an open circuit occur during laser operation do not attempt to remake the circuit or connection until the instrument outp
7. Mains supply voltage fluctuations are not to exceed 10 of the nominal supply voltage Pollution Degree II Installation overvoltage Category for transient overvoltages Maximum Relative Humidity 8096 RH non condensing Operating temperature range of 0 C to 40 C Storage and transportation temperature of 40 C to 70 C Maximum altitude 3000 m 9843 ft This equipment is suitable for continuous operation Safety Marking Symbols This section provides a description of the safety marking symbols that appear on the instrument These symbols provide information about potentially dangerous situations which can result in death injury or damage to the instrument and other On In position of a bistable push control The slash only denotes that mains are on Off Out position of a bistable push control The circle O only denotes that mains are off components Caution Earth Alternating Visible and or refer to ground current invisible laser manual Terminal DE radiation Caution risk Protective Caution hot Frame or of electric Conductor surface chassis shock Terminal Terminal or 1 0 viii LDX 3620B Lightwave WARRANTY ILX LIGHTWAVE CORPORATION warrants this instrument to be free from defects in material and workmanship for a period of one year from date of shipment During the warranty period ILX will repair or replace the unit at our option
8. Severe transport stress Prolonged storage under adverse conditions Failure to perform intended measurements or functions If necessary return the LDX 3620B to ILX Lightwave for service and repair to ensure that safety features are maintained Product Overview The LDX 3620B is a battery powered ultra low noise current source optimized for narrow linewidth or stable wavelength laser diode applications Instrument features include Low noise battery based design Built in battery charger and front panel battery charge indicator High output stability 10 ppm e Current limit protection Two output current ranges 200 mA and 500 mA Photodiode feedback input for constant optical power operation Lightwave LDX 3620B 1 4 INTRODUCTION AND SPECIFICATIONS Initial Inspection Two current control inputs with up to 1 MHz bandwidth for precise laser tuning Low battery shutdown protection Initial Inspection When you receive your LDX 3620B verify that the following items were shipped with the instrument LDX 3620B Ultra Low Noise Laser Diode Current Source User s Manual DC Power Supply Power Cord Verify the line voltage indicated on the rear panel is correct for your facility Check for damage from shipping Installing Your LDX 3620B Ultra Low Noise Current Source Power Requirements The LDX 3620B is a battery powered current source It can be operated for up to 16 hours befor
9. The instrument can be operated in any mode on battery only or while gt ON the batteries are charging B mu CHARGE mmm OUTPUT Adjust OUTPUT ADJUST COARSE Two control knobs one labeled COARSE and one labeled FINE are used to set the current source output level depending on the range selected with the POWER switch The COARSE adjust is a 10 turn trim pot for adjustment from 0 to full scale or 20 mA turn in the 200 mA range and 50 mA turn in the 500 mA range The FINE adjust is also a 10 turn trim pot in a ratio with the COARSE control and the setpoint The current source output level can be adjusted in both constant current instrument operating modes ILBW and IHBW with the output disabled or enabled Adjust the output current level as follows 1 Ensure that the DISPLAY push button switch is in the LASER position and the output is disabled Turn the power switch to 200mA or 500 mA 2 Rotate either or both the COARSE and FINE adjust knobs until the display indicates the desired output current level Note The maximum current level that can be displayed in the 200 mA range is 199 9 mA When adjusting the current level in this range above 199 9 mA an A D overload condition occurs which will be exhibited by displaying a 1 on the front panel LCD display 18 LDX 3620B Lightwave OPERATION Front Panel Operation LIMIT Current Adjustment The LIMIT control knob sets the maximum current source
10. a ken a wa nn ka ann 3 Operating the LDX 3620B Ultra Low Noise Current Source 3 Rear Panel Controls and Connectors 5 OUTPUT Connector 5 07 11 LDX 3620B i ko m a PHOTODIODE Feedback Input Jack 5 CHASSIS GROUND Connector 5 DC POWER Input len eR kaa kaa 5 Specifications mouet wed n ede qus y a a a te 6 Options and Accessories 1 tenes 7 Chapter 2 Operation Applying Power to Your 0 3620 9 Battery Charging sell 10 Low Battery Condition and Shutdown 10 Connecting to the Laser 10 Load Considerations 14 Interlock Connections 14 Photodiode lt 14 Front Panel Operation 16 Initial Front Panel Settings 16 DISPLAY ee LE ee be 16 DISPLAY Selector ee EG Ged dade 17 BATTERY Charge Indicator 17 CHARGE Switch 2 18 OUTPUT Adjust RR eer e ne ete dale ri ead 18 LIMIT Cur
11. and constant current high bandwidth modes the LDX 3620B is a voltage controlled current source that outputs a current PD GAIN proportional to the sum of the modulation input and set 4 point control signals In CONST POWER mode COARSE FINE LDX 3620B uses a feedback signal from a photodiode to set the output current level to maintain a constant optical power at the load In mode a 10 uF and 1 uF capacitor is switched in across the current source output terminals acting as a low pass filter Lowest noise performance is achieved 07 11 LDX 3620B m 19 20 LDX 3620B OPERATION Front Panel Operation in this mode With the switch in the pw position the bandwidth of the current source output is limited to 10 kHz In the l4gw position the capacitor is switched out of the circuit and the current source output bandwidth is 1 MHz The output current noise increases in this mode as there is no filtering of the current source The current source output bandwidth is 1 MHz See the MODULATION section for information on modulating the current source output In CONST POWER mode the output current increases until the photodiode feedback current equals a value proportional to the sum of the modulation input and set point control signals If the control signal is a DC level then the output optical power is held constant If the control signal is modulated then the output optical power is modulated In const
12. and Accessories Options and accessories available for the LDX 3620B Ultra Low Noise Current Source include the following MODEL NUMBER DESCRIPTION 3055 Current Source Interconnect Cable terminated 6 3065 Current Source Interconnect Cable unterminated 6 CC 355S Current Source Cable terminated 5m LDM 4405 Temperature Controlled Low Cost TO Can Laser Diode Mount LDM 4407 Temperature Controlled TO CAN Laser Diode Mount LDM 4412 Temperature Controlled TO Can Laser Diode Mount with Collimating Lens LDM 4990 TO Can Laser Diode Mount with Measurement Head Option LDM 4982 DIL Laser Diode Mount LDM 4984 Butterfly Laser Diode Mount 402529 2 2A Amp hr Battery Replacement 402530 12 Amp hr Battery Replacement Other laser diode mounts and accessories are available Please contact ILX Lightwave for information or visit www ilxlightwave com Our goal is to make the best laser diode instrumentation available anywhere To achieve this we need your ideas and comments on ways we can improve out products We invite you to contact us at any time with your suggestions 07 11 LDX 3620B 7 INTRODUCTION AND SPECIFICATIONS Options and Accessories 8 m LDX 3620B Lightwave CHAPTER 2 OPERATION El a la a El El mH E E E E LI E E This chapter introduces you to the operation of the LDX 3620B Laser Diode Current Source It offers instructions for connecting your
13. of the top chassis cover can be seen in Figure 3 5 Countersunk Screws Countersunk Screws Figure 3 5 Top Chassis Cover Removal 07 11 LDX 3620B m 31 MAINTENANCE AND CALIBRATION Disassembly 32 LDX 3620B Lightwave TROUBL This appendix is a guide to troubleshooting the LDX 3620B Ultra Low Noise Current Source Some of the more common symptoms are listed here and the appropriate troubleshooting actions are given We recommend that the user start at the beginning of this guide Read the symptom descriptions and follow the steps for the corrective actions which apply If you encounter problems which are beyond the scope of this guide contact your ILX Lightwave representative ESHOOTING Symptom Corrective Action LDX 3620B unit will not power up Ensure that the instrument is charged by using the charge indicator button If no LEDs are on charge the instrument Instrument is fully charged by the display shows a battery indicator Ensure that the 12V battery is charged by using the charge indicator button If the 12 battery is charged this is an indication that the 12V battery is low and that it needs to be charged If the instrument has been charged and the instrument still displays a battery indicator the instrument needs servicing Output is turned on but there is no current output Ensure that the instrument is charged by using the charge indicator but
14. signal or OFF am an alternating waveform One or two d external voltage wave forms can be used to modulate the output current through the input ports labeled EXT1 and EXT2 Both inputs can be AC DC coupled through the switch 2mA V 20mA V above the input port 5mA V 50mA V MODULATION EXT2 The transconductance of the input is determined by the selected instrument current range and the input port The EXT1 input has a transfer function of 2 mA V in the 200 mA range and 5 in the 500 mA range The EXT2 input has a transfer function of 20 mA V in 200 mA range and 50 mA V in 500 mA range Under all modes of operation the output is clipped at the level set by the current limit To modulate the current source output 1 Connect an external voltage signal to either or both BNC inputs labeled EXT1 and EXT2 see note below 2 Select the AC or DC coupling for each input with switches located above the connectors 3 Set any desired offset output current with the OUTPUT ADJUST control knobs 4 Enable the current source output by pressing the OUTPUT push button in The SHORT LED will not be illuminated when the current source output is enabled The output is the sum of the level set by the current source set point signal set by the OUTPUT ADJUST knobs and the external voltage input signal Note When a voltage signal is applied through EXT1 input only the EXT2 coupling switch must be in the AC coupl
15. situation which can result in serious injury or death Fe WARNING Visible and or invisible laser radiation Avoid direct exposure to the beam General Safety Considerations If any of the following conditions exist or are even suspected do not use the instrument until safe operation can be verified by trained service personnel Visible damage Severe transport stress Prolonged storage under adverse conditions Failure to perform intended measurements or functions If necessary return the instrument to ILX Lightwave or authorized local ILX Lightwave distributor for service or repair to ensure that safety features are maintained see the contact information later in this section All instruments returned to ILX Lightwave are required to have a Return Authorization Number assigned by an official representative of ILX Lightwave Corporation See Returning an Instrument on page ix for more information Lightwave LDX 3620B 8 vii koy DA SAFETY SYMBOLS This section describes the safety symbols and classifications Technical specifications including electrical ratings and weight are included within the manual See the Table of Contents to locate the specifications and other product information The following classifications are standard across all ILX Lightwave products Indoor use only Ordinary Protection This product is NOT protected against the harmful ingress of moisture Class Equipment grounded type
16. 0VAC 10 47 to 63 Hz Temperature Coefficient 20 ppm 20 ppm Maximum Current Draw Short Term Stability 100VAC to 120VAC 1 6A 5 minutes 4 ppm 4 ppm 220VAC to 240VAC 1 6A 30 mintues lt 10 ppm lt 10 ppm Batteries me 1 hour 10 ppm 10 ppm Battery Operation Time 16 hours Long Term Stability 12 hours 50 ppm 50 ppm Battery Charge Time 15 hours Noise and Ripple rms 12V Supply Charge Mode Operation Lead acid Low Bandwidth Mode 100 Hz lt 1 0 uA lt 1 0 pA Capacity 12 amp hour Low Bandwidth Mode 100 KHz lt 2 0 uA 2 0 pA Charge Operating Temperature 0 40C High Bandwidth Mode 100 KHz lt 3 0 pA 30 pA Discharge Operating Temperature 20 C 50 C High Bandwidth Mode 1 MHz lt 5 0 uA 70 pA Weight 3 94 kg 8 68 Ibs Battery Operation 12V Supply Low Bandwidth Mode 100 Hz lt 70 nA 120 n Lead acid Low Bandwidth Mode 100 KHz lt 250 nA 400 nA Capacity 2 2 amp hour High Bandwidth Mode 100 KHz 600 nA 900 nA _ Weight 0 94 kg 2 07 Ibs High Bandwidth Mode 1 MHz lt 750 nA 20 uA Size HxWxD 5 x 13 4 x 16 3 Transients 127mm x 340mm x 414mm Operational output on off lt 10 uA 10 uA Weight 25 4 Ibs 11 11 kg Operational power on off lt 1mA lt 1 mA Operating Temperature 0 C to 40 C Storage Temperature 40 C to 60 C RIVE Humidity Up to 80 non condensing CURRENT LIMIT SETTING 5 Regulatory C
17. 2V Battery Figure 3 1 Battery Replacement Once the top chassis cover is removed the large 12 12 0AH battery can be replaced by removing the battery bracket This can be accomplished by unscrewing the 4 machine screws holding the large battery in place Disconnect the battery harness cabling on the battery and pull the battery out of the chassis Insert the replacement battery and the large battery harness The large battery must be connected to the 12A Hour connector Reconnect the power tabs in the following order 1 Red wire connect to red tab 2 Black wire connect to black tab The 12V long and skinny battery can be replaced by again removing the battery bracket from the battery Replace the battery with the red tab closest to the back of the instrument and the black tab towards the front panel The small battery must be connected to the 2 3A Hour connector Reconnect the power tabs in the following order 1 Red wire connect to red tab 2 Black wire connect to black tab 26 LDX 3620B Lightwave MAINTENANCE AND CALIBRATION Fuse Replacement Fuse Replacement Power fuses are located inside the instrument and in line with each battery connection Should replacement be necessary first turn the keyswitch to the off position turn the CHARGE switch to OFF and disconnect the power cord Remove the top cover as described later on in this section Identify the four fuse holders black cylindrical containers
18. ERING INFORMATION L 20 mAV 50 mAV LDX 3620B Ultra Low Noise Current Source High Bandwidth DC to 1 MHz DC to 1 MHz CC 305S Current Source LD Mount Interconnect Cable Low Bandwidth Mode 10 kHz 10 kHz CC 306S Current Source Unterminated Interconnect Cable Bandwidth 388 AC coupled LDM 4412 Temperature Controlled TO can Laser Diode Mount High Bandwidth Mode 100 Hz to 1 MHz 100 Hz to 1 MHz with Collimating Lens ni renn LDM 4405 Low Cost TO Can Laser Diode Mount LDM 4407 Temperature Controlled TO can Laser Diode Mount MEASUREMENT LDM 4982 DIL Laser Diode Mount Output Current Range 010 199 99 mA 010 500 0 LDM 4984 Butterfly Laser Diode Mount Output Current Resolution 0 01 mA 0 1 mA URN QN d 1 am yA a yA Other laser diode mounts are available contact sales ilxlightwave com Photodiode Current Resolution 0 1 pA 0 1 pA for more information Photodiode Current Accuracy 4 pA 4 pA In keeping with our commitment to continuing improvement ILX Lightwave reserves the right to change INPUT OUTPUT CONNECTORS specifications without notice or liability for such changes Photodiode 9 pin d sub rear panel BNC rear panel Modulation Input 1 front panel Modulation Input 2 front panel Laser Current Source 9 pin d sub rear panel DC Power Supply Standard Type R1B DIN 5 pin 6 LDX 3620B Lightwave INTRODUCTION AND SPECIFICATIONS Options and Accessories Options
19. User s Guide Ul ra Low Noise Current Source LDX 3620B A Newport Corporation Brand ILX Lightwave Corporation 31950 Frontage Road Bozeman MT U S A 59715 U S amp Canada 1 800 459 9459 International Inquiries 406 556 2481 Fax 406 586 9405 ilx custhelp com www ilxlightwave com 70043701 July 2011 TABLE OF CONTENTS E a El El El E a Ei Table of Contents i List of Safety and Warranty vii Safety Information and the Manual vii General Safety Considerations vii Safety 5 viii Safety Marking Symbols es vet ker viii ix Comments Suggestions and Problems x Chapter 1 Introduction and Specifications Product Overview 1 Initial Inspection 2 eee EE EGEN 2 Installing Your LDX 3620B Ultra Low Noise Current Source 2 Power Requirements 2 2 en 2 Grounding Requirements 2 Tilt Foot Adjustment rl kl en n kl n
20. ant power mode the current output is in low bandwidth mode OUTPUT On Off The OUTPUT switch enables or disables the current source output in any of the instrument operating modes With the switch in the out position the current output of the LDX 3620B is shorted by a mechanical switch and a FET In this condition the OUTPUT SHORT LED on the front panel is illuminated EH SHORT When the OUTPUT switch is set to the ON position p ON the short is removed and the shorting FET is turned OFF M off slowly This brings the output current up slowly to the level determined by the OUTPUT ADJUST and MODULATION control signals Photodiode Feedback Gain Adjustments Setting the gain of the photodiode feedback signal allows the LDX 3620B to operate in a closed loop fashion in constant power mode to maintain any operating power point within the safe operating limits of the laser by controlling laser current to the laser diode The input for the photodiode feedback is expected to be a current input from either the back facet monitor from the laser module or from an external to the laser diode photodiode The LDX 3620B operates differently than other ILX current sources in constant power When the LDX 3620B is operated in constant power constant photodiode feedback mode the user can adjust the gain for the feedback of the back facet monitor along with the gain for the setpoint These two adjustments allow the instrument to have a maximum set
21. e recharging the batteries A low voltage DC power supply supplied with the instrument is required to charge the batteries The DC power supply can be plugged into a single phase AC power source delivering nominal line voltages in the range of 100 to 240 10 all values RMS from 50 to 60 Hz This power supply is intended for indoor use only AN warnine To avoid electrical shock hazard connect the instrument to properly earth grounded 3 prong receptacles only Failure to observe this precaution can result in severe injury or death Grounding Requirements The LDX 3620B Ultra Low Noise Current Sources comes with a low voltage DC power supply and a three conductor AC power cable The power cable must either be plugged into an approved three contact electrical outlet or used with a three contact or two contact adapter with the grounding wire connected to an electrical ground safety ground The LDX 3620B s DC power supply and power cable meet IEC safety standards 2 m LDX 3620B Lightwave INTRODUCTION AND SPECIFICATIONS Operating the LDX 3620B Ultra Low Noise Current Source Tilt Foot Adjustment The LDX 3620B can be tilted for easier viewing using the extensions on the front feet of the unit These extenders can be extended 90 degrees until they lock into position Operating the LDX 3620B Ultra Low Noise Current Source Now that the LDX 3620B is installed and ready for use you can begin to learn about its operatio
22. ei 3 Chassis Ground 6 PD Cathode 7 PD Anode 4 4 4 Figure 2 5 Rear Panel Laser Output Connector a 8 Laser Anode 4 Laser Cathode a 9 Laser Anode 5 Laser Cathode 07 11 LDX 3620B m 13 OPERATION Connecting to the Laser Load Considerations The LDX 3620B is intended as a current source for laser diode loads When it is used with a resistive load the resistance value of the limiting resistor should be selected so that the compliance voltage of the instrument is not exceeded For example a laser diode which has a voltage drop of 1 8 volts may be connected in series with a limiting resistor In the 200 mA range the compliance voltage is 5 volts If the current limit is set to 100 mA the maximum resistance value of the limiting resistor can be found using OHM s Law R V T 5 1 8 V 0 1A 32 ohms CAUTION If the LDX 3620B is to be used with an inductive load such as a bias tee network the instrument mode should be set to constant current low bandwidth This is done to prevent possible oscillation of the current source Interlock Connections In order for the laser output to be enabled a short circuit must exist between the Interlock pins pins 1 and 2 of the 9 pin current source connector on the rear panel of the LDX 3620B The short can be a direct short across the pins or a switch to prevent laser operation unti
23. he display indicates photodiode current in milliamps if a photodiode is connected to the instrument BATTERY Charge Indicator The LDX 3620B includes an LED battery life indicator on the front panel To check approximate battery life press the BATTERY button located underneath the four LED s on the left of the display The LED bars will illuminate based on measured battery voltage All four indicators represent fully charged batteries each LED represents a 25 charge level If the lowest indicator does not illuminate when the BATTERY push button is pushed the batteries are in a low battery condition It is recommended that throughout use of the instrument in battery mode to periodically check the charge level of the batteries with the battery level indicator If the lowest indicator does not illuminate when the BATTERY push button is pushed the batteries are in a low battery condition Continued operation of the instrument in this condition is not recommended as it will result in damage to the batteries 07 11 LDX 3620B m 17 OPERATION Front Panel Operation CHARGE Switch Battery charging is accomplished by enabling the CHARGE switch on the front panel With the CHARGE switch enabled the LED above the switch will light up indicating that the batteries are charging With this switch disabled the LDX 3620B draws power from its internal batteries For lowest noise operation the CHARGE switch should disabled
24. ide of the box and on the shipping paperwork ILX Lightwave recommends you insure the shipment If the original shipping container is not available place your instrument in a container with at least 3 inches 7 5 cm of compressible packaging material on all sides Repairs are made and the instrument returned transportation pre paid Repairs are warranted for the remainder of the original warranty or for 90 days whichever is greater 07 11 LDX 3620B VU ix TJ x Claims for Shipping Damage When you receive the instrument inspect it immediately for any damage or shortages on the packing list If the instrument is damaged file a claim with the carrier The factory will supply you with a quotation for estimated costs of repair You must negotiate and settle with the carrier for the amount of damage Comments Suggestions and Problems To ensure that you get the most out of your ILX Lightwave product we ask that you direct any product operation or service related questions or comments to ILX Lightwave Customer Support You may contact us in whatever way is most convenient Phone coe ERE E ENS 800 459 9459 or 406 586 1244 EEE qeu eui debe Gad de 406 586 9405 On the web at ilx custhelp com Or mail to ILX Lightwave Corporation P O Box 6310 Bozeman Montana U S A 59771 www ilxlightwave com When you contact us please have the following information Model Number
25. ing or DC coupling position If it is in the OFF position the input at will be summed into the current drive circuit A CAUTION Be sure that the current limit is set correctly before enabling the current source output The current limit may clip the output waveform if the sum of the resulting waveform exceeds the limit 07 11 LDX 3620B m 23 OPERATION Output Error Indicators Output Error Indicators CURRENT LIMIT Indicator The CURRENT LIMIT indicator is illuminated whenever current set point exceeds the current limit as set by the LIMIT knob Output will remain on but the output current will not exceed the limit setting OVER VOLTAGE Indicator The OVER VOLTAGE indicator will illuminate whenever the load voltage exceeds 5V on the output of the laser diode The output will remain on OPEN CIRCUIT Indicator The OPEN CIRCUIT indicator will illuminate whenever current source output is enabled and the load circuit is open 24 LDX 3620B Lightwave CHAPTER 3 MAINTENANCE AND CALIBRATION E a El El El El El mH B E Ej El E This chapter discusses the recommended procedures for maintaining LDX 3620B in good operating condition Battery Maintenance The battery life of the LDX 3620B depends on the frequency and degree of discharge of the batteries during use With light use and proper maintenance the batteries should last for more than 1100 recharge cycles about four years of daily
26. k leads should be shielded with an earth ground shield available on pin 3 Pins 1 and 2 of the rear panel OUTPUT can be connected to an external safety interlock switch to disable the LDX 3620B current output when the switch is opened PHOTODIODE Feedback Input Jack The photodiode feedback current may optionally be input through a rear panel BNC jack This jack is connected in parallel with pins 6 and 7 of the rear panel 9 pin D subminiature connector CHASSIS GROUND Connector Chassis ground is available on the rear of the unit through a banana jack connected to the LDX 3620B chassis When a three wire line cord with earth ground is used the chassis of the LDX 3620B is connected to the ground lead of the power cord DC POWER Input A input is provided for charging the internal batteries from a DC desktop 50W power supply provided with the LDX 3620B An IEC 320 C14 receptacle is required for AC input to the power supply The plug is a standard type R1B DIN 5 pin which connects directly to the receptacle on the rear panel The power supply provides 5V 15V and 15V to the instrument The instrument can be operated in any mode with the DC power supply connected 07 11 LDX 3620B 5 INTRODUCTION AND SPECIFICATIONS Specifications Specifications DRIVE CURRENT OUTPUT GENERAL Output Current Range 0 to 200 mA 010 500 mA DC Input Power Requirements 100VAC 120VAC 1096 47 to 63 Hz Compliance Voltage lt 5V lt 5V 220VAC 23
27. l the switch is closed When this circuit is opened the interlock disables the current source and the output short LED indicator is illuminated The interlock connections must be electrically isolated from all other circuits If you are using an ILX Current Source Interconnect Cable to connect the laser to the LDX 3620B the interlock pins are shorted together inside the connector at the end of the cable If you want to use the interlock feature through an external relay or switch this connection in the cable will have to be severed The interlock terminals on laser connector pins 1 and 2 must be kept isolated from all other connections including earth ground Photodiode Connections Many laser diode modules contain an internal photodiode that monitors the backfacet emission of the laser This photodiode is usually internally connected to either the laser anode or cathode Figures 2 1 2 4 show the recommended connections and shielding for the various configurations of laser diode modules and photodiode feedback schemes 14 LDX 3620B Lightwave OPERATION Connecting to the Laser The feedback photodiode reverse biasing supply shown in these figures must be supplied by the user It is located in the circuit where it will not cause the common mode voltage of the feedback inputs to exceed their specified maximum of 6 volts relative to the current output terminal pins 4 and 5 of Figure 2 5 Noise f
28. laser to the current source and describes powering up the instrument This chapter also contains step by step procedures that teach you how to operate the current source in Constant Current Mode and Constant Power Mode We recommend that you review the contents of this chapter at a minimum before operating the instrument Applying Power to Your LDX 3620B POWER A three position key switch on the front panel of the LDX 3620B controls the power to the current 500mA 200mA OFF center position 200 mA range clockwise CW 500 mA counter clockwise CCW The front panel power key switch enables the instrument to operate from the internal batteries and selects the current source output full scale range The center position disables power from the instrument Turning the switch clockwise enables power to the instrument and selects the 200 mA range Turning the switch counter clockwise enables power to the instrument and selects the 500 mA range Lightwave LDX 3620B 9 10 OPERATION Connecting to the Laser Battery Charging The batteries of the LDX 3620B are re chargeable lead acid batteries To charge the batteries make sure the DC power supply is connected to the instrument and plugged into an AC source A switch on the front panel of the instrument enables or disables battery charging For lowest noise operation the CHARGE switch should be disabled The instrument can be operated on battery on
29. ly or with the batteries charging Low Battery Condition and Shutdown In a low battery condition shutdown circuits will turn off the output of the LDX 3620B Use of the instrument will be disabled until the batteries have been recharged and the DC POWER key switch has been turned off and then on again Continued operation of the instrument in a low battery condition will result in the display becoming fully inoperative by showing random characters or going blank Repeated operation of the instrument in a low battery condition greatly reduces the battery life and is not recommended See Chapter 3 for recommended battery maintenance It is recommended that throughout use of the instrument in battery mode to periodically check the charge level of the batteries with the battery level indicator Illumination of all four indicators represent fully charged batteries each LED represents a 2596 charge level If the lowest indicator does not illuminate when the BATTERY push button is pushed the batteries are in a low battery condition Continued operation of the instrument in this condition is not recommended The LDX 3620B uses two batteries a large 12V battery for output current and driving active components and a second smaller 12V battery for active components The battery status LED only provides information for the 12V battery Connecting to the Laser LDX 3620B When connecting your laser or any other sensitive devices to the LDX 3620B
30. n The following figures show the front and rear panel controls and inputs Use these figures to familiarize yourself with the LDX 3620B After that use Chapter 2 for fundamentals of operating your instrument 07 11 LDX 3620B 3 Battery Charge Indicator Error Indicators INTRODUCTION AND SPECIFICATIONS Operating the LDX 3620B Ultra Low Noise Current Source Modulation Mode Select Coarse Current Switch Adjust 4 1 2 Digt LCD Display Display Mode Select Switch Fine Current Adjust setud mm m ho a oa Mode Select Switch RN Im G 5 A DC Power Extemal Modulation Range Select Inputs utput Keyswitch Battery Charge Current Limit ON OFF Switch Adjust Knob PD Gain Adjust Figure 1 1 LDX 3620B Front Panel Chassis Ground m of jo Q pum Output Connector with CS output and PD input 4 LDX 3620B Auxilary PD Input DC Power Input for Battery Charging Figure 1 2 LDX 3620B Rear Panel Lightwave INTRODUCTION AND SPECIFICATIONS Rear Panel Controls and Connectors Rear Panel Controls and Connectors OUTPUT Connector The rear panel 9 pin D sub connector pin outs are shown in Figure 2 5 in Chapter 2 The LDX 3620B output current is sourced from pins 8 and 9 and the current returned to pins 4 and 5 The monitor photodiode feedback current is input to pin 7 and returned from pin 6 The feedbac
31. n the instrument is in Constant Power Mode GAIN 1 is adjustable from 1 to 0 001 where gain GAIN 2 is adjustable from 1 to 100 Low feedback signals require high gain while high feedback signals require low gain Adjust Coarse Fine Current Source PD Current Measurement DISPLAY 125 25 mA Figure 2 6 Photodiode Feedback Block Diagram LDX 3620B m 21 OPERATION e Front Panel Operation CAUTION The current limit level must be correctly set before switching the MODE selector to CONST POWER and enabling the current source output Laser diode damage will result if the current level is not safely set To adjust the photodiode feedback gain follow the procedure listed below 1 Setthe front panel controls of the LDX 3620B to the safe initial settings summarized in Table 2 1 Including setting the LDX 3620B initially in a constant current mode of operation 2 Setthe current limit slightly above the setpoint required for the desired operating power level of the laser as outlined in the LIMIT Current Adjustment section found earlier 3 Determine and record the photodiode current set point for the desired operating power level of the laser This can be accomplished with the instrument in constant current mode by enabling the laser diode output and with an optical power meter setting the current to achieve the desired optical power Once the optical powe
32. ompliance CE Certified EMC Directive 2004 108 of FS 5 m EC per standard EN61326 1 2006 y Low Voltage Directive 2006 96 EC per PHOTODIODE FEEDBACK standard EN61010 1 2001 Type Differential Differential NOTES PD Current Input Range 20 to 2000 0 yA 20 to 2000 0 pA 1 Unless otherwise noted all specifications measured at 23 C 3 C after one hour warm up EXTERNAL ANALOG MODULAT ION 2 the specified period hall scale output into a temperature controlled resistive load Input 1 10V 10V 3 electrically with a 240 load evaluating AC coupled rms value over the specified Transfer Function 2 mAV 5 mAV 4 Maximum output current transient resulting from normal operational situations e g power Bandwidth 388 DC coupled curant on off a well as rn e g power line plug removal i 5 _ Internal specification only not t 1 en Bandwidth Mode OC to 1 MHz DC to 1 MHz 6 Sine wave with peek to peek modulation at half scale output ow Bandwidth Mode 10 kHz 10 kHz 7 Battery operating time is the same for both 200 mA and 500 mA ranges instrument circuitry Bandwidth 3dB AC coupled draws 500 in either curent range gran qn High Bandwidth Mode 100 Hz to 1 MHz 100 Hz to 1 MHz lt OPEO OO OS nO SPON 79 Tango Low Bandwidth Mode 100 Hzto 10kHz 100 Hz to 10 kHz a p p a ea i pi rey po orn bonn e Input Impedance 1KQ 1KQ Input 2 10V 10V ORD
33. output level Turning the knob fully clockwise CW limits the LDX 3620B output current to approximately 500 mA Turning it fully counter clockwise CCW limits the output to approximately 11 mA The current limit is active in all operating modes Before enabling the current source output the current limit should be adjusted to a safe level respective to the laser diode connected to the instrument Refer to the maximum current rating for the laser diode from the specifications sheet Adjust the current limit as follows 1 Ensure that the OUTPUT switch is in the OFF position The SHORT LED indicator will be illuminated indicating that the output is off and a short is present across the laser diode anode and cathode terminals Ensure that the DISPLAY push button switch is in the LASER position Rotate the COARSE output adjust knob clockwise to its maximum setting Adjust the LIMIT control knob until the display reads the desired current limit value Rotate the COARSE output adjust knob counter clockwise to its minimum setting Be sure that the OUTPUT switch is in the OFF position and the SHORT LED is illuminated before attempting to adjust the current limit Instrument MODE Selection The front panel MODE switch selects the current source mode in two constant current modes and lugw and constant laser optical power mode P CONST CONST POWER lj pw constant current low bandwidth
34. point equivalent to the maximum output power of the laser diode Lightwave 07 11 OPERATION Front Panel Operation In constant power mode the setpoint is gained down by using the trim pot labeled GAIN 2 By gaining the setpoint down the user can change the full scale setpoint on the front panel Coarse and Fine knobs turned completely CW to be between 20 uA and 2mA For example if the maximum back facet monitor current from the laser diode was 400 uA the maximum set point could be adjusted to be 400 uA By providing the gain adjustment the LDX 3620B is an ideal instrument for maximum setpoint resolution when operating in constant current mode Using the trim pot labeled GAIN 1 the user can increase the gain of the current from the back facet monitor by a factor of 1 to a factor of 1000 Both trim pots GAIN 1 and GAIN 2 are fed into an integrator which compares the setpoint to the actual back facet monitor measurement This means that the two gain adjustments have a strong correlation with each other and minute adjustments between the two trim pots may be necessary The photodiode feedback gain is adjustable to accept feedback signals from 20 uA to 2 mA through the trim pots labeled GAIN 1 and GAIN 2 in the MODE section See Figure 2 6 for a block diagram of the feedback circuit As shown the trim pots adjust the feedback gain for the photodiode current GAIN 1 and the monitor photodiode current setpoint gain GAIN 2 whe
35. r is achieved press the LASER MONITOR push button to the MONITOR position The instrument will display current measured from either of the photodiode input terminals in milliamps Record the photodiode current Turn the output OFF 4 Turn COARSE adjust knob fully clockwise and the FINE adjust knob clockwise several turns Turn both the GAIN 1 and GAIN 2 adjust screws five turns counterclockwise note the adjust screws do not have a hard stop 5 Turn the mode switch to the CONST POWER position 6 Enable the current source output The instrument is now controlling laser current to the laser with the photodiode current as the feedback At this point with minimal gain there should be little or no monitor current measured 7 Start by adjusting GAIN 2 first getting close to the monitor current set point Then alternating between the monitor current reads the recorded value from Step 3 If the set point cannot be reached with the GAIN 2 adjust increase the GAIN 1 slightly and follow by adjusting the GAIN 2 8 Once the gain is adjusted to achieve the desired operating point the laser is now operating in constant power mode The laser can be operated at any operating power point by rotating the ADJUST knobs 22 LDX 3620B Lightwave OPERATION Front Panel Operation Modulating the Output Current The current output of the LDX 3620B can be controlled by an external DC E voltage source either a DC
36. rent 19 Instrument MODE Selection 19 OUTPUT On Off Jenn ER eR BR Re e hee ura 20 Photodiode Feedback Gain Adjustments 20 Modulating the Output Current 23 Output Error Indicators 0 0 0 0 24 CURRENT LIMIT Indicator 00 00 0000 24 OVER VOLTAGE Indicator liliis 24 OPEN CIRCUIT Indicator 24 ii LDX 3620B Lightwave Chapter 3 Maintenance and Calibration Battery Maintenance 25 Battery 26 Fuse 27 Calibration ssi vorne 28 Laser Diode Measurement Calibration 30 Photodiode Measurement Calibration 30 Disassembly 31 Appendix A Troubleshooting 07 11 LDX 3620B iii TT pee ens iv LDX 3620B Lightwave LIST OF FIGURES E H H B m E E El Figure 1 1 LDX 3620B Front Panel 4 Figure 1 2 LDX 3620B Rear 5 Figure 2 1 Common Laser Cathode Photodiode Cathode 12 Figure 2 2
37. rom this biasing supply may contribute to the output noise levels therefore a battery with shielded connections is recommended If a feedback photodiode is used which is electrically isolated from the laser the feedback circuit must be resistively tied at some point to the output circuit A large resistance of 1 M connected from the laser cathode to the photodiode anode may be used in place of the direct connection This is done to keep the feedback inputs within the specified maximum 6 volt common mode voltage relative to the laser current output pins 4 and 5 of Figure 2 5 07 11 LDX 3620B 15 OPERATION Front Panel Operation Front Panel Operation This section describes fundamentals of operation for your LDX 3620B The instructions presented in this section assume that the instrument is powered up with the POWER switch in 200 mA range or the 500 mA range See the section Applying Power to the LDX 3620B at the beginning of this chapter information on the power switch and selecting the current source output range Initial Front Panel Settings Before turning DC power on the front panel controls should be set to a safe configuration The table below lists the recommended settings Front Panel Control Recommended Setting OUTPUT Switch OFF out MODE Bw MODULATION OFF DISPLAY Switch LASER out OUTPUT ADJUST Knobs Fully counter clockwise LIMIT Knob Fully coun
38. ter clockwise CHARGE Switch OFF out PD Gain Coarse Minimum gain PD Gain Fine Minimum gain DISPLAY The LDX 3620B output current and monitor photodiode current are displayed on a 4 1 2 digit liquid crystal display in the upper left of the front panel When the DISPLAY push button is in the LASER position out the display reads either the set point current with the output disabled or the actual measured current with the output enabled In either constant current mode the display reads the DC current level If the current source output is modulated the display may oscillate depending on the frequency of the modulation signal The resolution of the 16 LDX 3620B Lightwave OPERATION Front Panel Operation display depends on the range selected by the POWER key switch 0 01 mA in the 200 mA range and 0 1 mA in the 500 mA range When the DISPLAY switch is in the MONITOR position in the display reads the photodiode current level in milliamps if a photodiode is connected to the input terminals on the rear panel The resolution of the display in MONITOR mode does not change with the output range selected by the POWER key switch DISPLAY Selector The LASER MONITOR switch selects the parameter being indicated on the LCD With the switch in the out position the display indicates laser diode current in milliamps when the instrument is in either constant current mode or constant power mode With the switch pushed in t
39. that are inline with the wires coming from the batteries Please note that with the Long Life option there are six fuse holders Open the fuse holders by pushing together the ends and twisting The 12V battery large square battery uses two in line fuses These fuses are 5x20mm 3 15A 250V slow blow fuses The 12V battery uses two in line fuses as well and are 5x20mm 1 6A 250V slow blow fuses There are also two TR5 fuses located on the mainboard located at F1 and F2 These fuses can be seen in Figure 3 2 The TR5 fuses are rated for 1 25A 250V F1 and F2 1 25A TR5 Fuses Figure 3 2 TR5 Fuse Replacement Position If you are unable to obtain replacement fuses please contact ILX Lightwave or your local distributor for replacements 07 11 LDX 3620B m 27 MAINTENANCE AND CALIBRATION Calibration Calibration The following paragraphs outline the procedures for calibrating the instrument Access to the adjustment trimpots on the circuit boards will require that the top of the instrument be removed The removal procedure is discussed later in this chapter The equipment required for the calibration procedures must be capable of measuring a current of 500mA to an accuracy of approximately 0 01mA and measuring 2mA to an accuracy of 0 00005mA good digital multimeter with 6 1 2 digit resolution is usually adequate for this purpose For 200mA calibration a 10 25 ohm test load should be connected to the output of the instr
40. ton If no LEDs are on charge the instrument Output goes off intermittently Check the interlock circuit an intermittent interlock will turn the output on off Current limit LED remains on with no output in both battery operation and AC operation One of the two batteries may be discharged to a point where the instrument is no longer operation even in AC mode Connect the instrument to AC and begin charging the batteries To begin using the instrument in AC mode the instrument must be charged for one hour To operate in battery mode the instrument must be charged for 5 to 8 hours II LX Lightwave LDX 3620B n 33 34 LDX 3620B Lightwave
41. ument For 500mA calibration a 5 8 ohm test load should be used Each test load should be able to withstand at least 3W of power For photodiode calibration a 9 pin D SUB connector will need to be used to connect the output of the laser diode instrument Pins 8 and 9 to the input of the photodiode Pin 7 The output of the photodiode Pin 6 will need to be connected to a 6 1 2 digit ammeter that can measure an accuracy of 0 00005mA The ammeter will then need to laser diode cathode Pins 4 and 5 on the D SUB connector This will allow the instrument to calibrate itself An alternative would be to utilize a low noise current supply and inject current into the auxiliary photodiode BNC connector Please note that the supply will need to be extremely stable to calibrate nanoamps of current with 1mA of full scale and an external ammeter will need to be used to verify actual current Refer to the component layout diagrams Figures 3 3 and 3 4 to find the locations of the adjustment trimpots referred to in these procedures Each trimpot that is used for calibration is pointed out in each figure 28 LDX 3620B Lightwave MAINTENANCE AND CALIBRATION Calibration R130 200mA Measurement Calibration Figure 3 3 200 mA Calibration Potentiometer Position R41 Photodiode Measurement Calibration SOUMA Measurement Calibration Figure 3 4 Photodiode and 500 mA Measurement Calibration Position 0711 LDX 3620B m 29
42. use With heavy use the battery lifetime can be degraded by as much as 6090 The batteries are continuously charged whenever the LDX 3620B is connected to a power source and the front panel CHARGE power switch is turned on Full recharge of the batteries takes about 15 hours Long battery life results from maintaining the batteries as fully charged as possible and short battery life will result from the practice of waiting until a low battery condition is indicated before recharging the batteries If the LDX 3620B is to be stored for long periods the batteries should be fully recharged for eight hours every 6 9 months to prevent a permanent loss of capacity due to self discharge WARNING Potentially lethal voltages exist within the LDX 3620B Ultra Low Noise Current Source To avoid electric shock never remove the cover without first disconnecting the instrument from the external power source Always wear protective eyeglasses and anti static wrist bands while working on the LDX 3620B with the cover removed Lightwave LDX 3620B m 25 MAINTENANCE AND CALIBRATION Battery Replacement Battery Replacement The batteries may be replaced by removing the top chassis cover which is held in place with 4 6 32 machine screws For replacement batteries in the US please contact ILX Lightwave For regions outside of the US please contact your local ILX distributor See the following sections for disassembly instructions 12V Battery 1
43. ut is disabled the front panel output switch in the OFF SHORT position Figures 2 1 through 2 4 show the possible configurations of connecting laser diodes and photodiodes with the LDX 3620B Ultra Low Noise Laser Diode Current Source 07 11 LDX 3620B m 11 OPERATION Connecting to the Laser Optional User Supplied OUTPUT Instrument Independant Voltage Supply e g Shielded battery Laser Diode Figure 2 1 Common Laser Cathode Photodiode Cathode Optional User Supplied Instrument Independant Voltage Supply OUTPUT e g Shielded battery Laser Diode Figure 2 2 Common Laser Cathode Photodiode Anode Optional User Supplied Instrument Independant Voltage Supply OUTPUT e g Shielded battery Laser Diode Earth Ground Figure 2 3 Common Laser Anode Photodiode Cathode 12 LDX 3620B Lightwave OPERATION Connecting to the Laser Optional User Supplied Instrument Independant Voltage Supply OUTPUT e g Shielded battery Laser Diode Earth Ground Figure 2 4 Common Laser Anode Photodiode Anode The 9 pin connector marked Current Source on the back panel is used to connect your laser diode to the LDX 3620B there are connections provided for laser cathode and anode photodiode cathode and anode chassis ground and interlock The pinout diagram for this connector is shown in Figure 2 5 12 Interlock Ma 1 Ou CH i
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