Diode Laser Driver, Laser Diode Driver, Diode Driver

LDD2 Series Diode Drivers

LDD2 is a series of laser diode drivers intended for single laser diode driving as well as for laser diode arrays driving. Maximal output power ranges from 50W to 1500W, and maximal output current ranges from 5A to100A. These drivers may be used for industrial and medical applications.

Part number: LDD2-xx-AA

LDD2: LDD2 series OEM diode drivers

xx : Maximum output power

AA: maximum output current

The maximum output voltage is maximum output power divided by output current.

NAME	MAX POWER	CURRENT	INPUT VOLTAGE	DIMENSION
LDD2-50-AA*	50 W	5-25 A	110/230 VAC	A
LDD2-150-AA	150 W	5-75 A	110/230 VAC	B
LDD2-250-AA	250 W	10-100 A	110/230 VAC	B
LDD2-400-AA	400 W	10-100 A	230 VAC	B
LDD2-600-AA	600 W	10-100 A	110/230 VAC	C
LDD2-1000-AA	1000 W	10-100 A	110/230 VAC	C
LDD2-1500-AA	1500 W	10-100 A	230 VAC	C

* Additional information about LDD-50 model is available on request.

Examples: LDD2-150-70 or LDD-1500-50

Maximal output voltage in these examples is 2.1V and 30V, respectively.

Specifications:

OUTPUT
Efficiency	more than 80%
Rise/fall time	< 1 ms (10% to 90% full current) < 500 us on request
Current regulation accuracy	< 1% of I_MAX
Current value error	< 1% of I_MAX
Current overshoot	< 1% of I_MAX
INTERFACE
Connector	15 Pin "D"-Sub Female
Current program	analog, 0-10 V
Current monitor	analog, 0-10 V
Voltage monitor	analog, 0-10 V
SAFETY
PFC value	> 0.98 (active)
Leakage current	< 150 μA
Input/output isolation voltage	4000 VAC
Safety approval	IEC60950, IEC60601-1
EMC approval	EN55011 (Class A)
Cooling	No external cooling is required
ENVIRONMENT
Operation temperature	0 … +40 °C
Storage temperature	-20 … +60 °C
Humidity	90%, non-condensing

Interface

PIN (color)	DESIGNATION	DESCRIPTION
1 (green)	Enable	Apply +5V DC on this pin to enable work of LDD. While 0V are applied to this pin or pin is unconnected module is disabled. Once Fault has occurred module is blocked till you eliminate fault cause, then disable module and enable it again.
2 (orange)	Fault *	If module is enabled and some trouble has occurred, module automatically stops operations and sets Fault status (Fault loop is “closed”). In case of normal operations Fault loop is “opened”. Maximal allowed current in Fault loop is 50mA.
3 (transparent)	Interlock	When Interlock loop is “opened” output is inhibited. You should “close” this loop to start operations (electrical resistance of “closed” loop should be below 100 Ohm level). Once Interlock has occurred module is blocked till you “close” Interlock loop, then disable module and enable it again.
4, 9, 15 (black)	Interface Return	Return of all interface circuits. This pin is connected to the GROUND stud.
5 (yellow)	V OUT monitor	The voltage at this pin is a monitor signal proportional to the measured value of voltage on load. 0V at PIN5 corresponds to 0V at load. Voltage at PIN5 corresponds either to voltage at load (V_MAX < 10V) or to one-half of this voltage (V_MAX > 10V).
6 (purple)	I OUT monitor	The voltage at this pin is a monitor signal proportional to the measured value of output current. 0V at PIN6 corresponds to 0A. 10V at PIN6 corresponds to I_MAX.
7 (blue)	I program	Voltage applied to this pin sets output current. 0-10V DC are linear with 0-I_MAX.
8 (white)	Pulse	Apply +5V DC on this pin to allow the output. While 0V are applied to this pin or pin is unconnected output is inhibited.
10-12	–	Not used
13, 14 (red)	+15V OUT	Auxiliary 15 VDC output. Maximal current – 100mA.

Fault

Module sets Fault state in the following cases:

· overheating (temperature of the module exceeds 70+/–2 °C level).

To remove Fault status module must be cooled below 65+/–1 °C temperature.

· overvoltage (voltage on the load exceeds 110% of V_MAX level).

Most popular causes of such fault are load type mismatch and load absence.

· overcurrent (output current exceeds 1.05 I_MAX level)

· incorrect I Program (input voltage exceeds 10.5V level)

Once Fault has occurred you should eliminate Fault cause, then “reboot” module (DISABLE module and ENABLE it again).

Diode Laser Driver (Laser Diode Driver, Diode Driver)

The laser diode driver LDD-AAVV-T is a high current-constant laser diode driver with a thermo-electric cooler controller. Current control, transient suppression, over-temperature protection, short circuit protection, and over current limit are provided. A temperature sensor is used to measure the temperature of the laser diode and then the constant-temperature is kept by automatically adjusting the current of the thermo-electric cooler.

Specifications:
Model: LDD-AAVV-T

LDD - laser diode driver

AA - maximum output current (A). Max is 60A and it is continuously adjustable.

VV - maximum output voltage (V). Max is 60V and it is continuously adjustable.

T - with a thermal electronic cooler TEC1-12714 & power supply

Input voltage: 220VAC, +/-15% (110VAC available upon request)

Voltage noise: <0.1% p-p

Current noise: < =50mA

Un-stability: <0.1%

Weight: LDD-AAVV: 6.5kg; LDD-AAVV-T: 15kg
Dimension: LDD-AAVV: 482x133x520mm; LDD-AAVV-T: 482×88x260mm

LDD-AAVV

LDD-AAVV-T

Examples of Selections:

20W diode-laser pump module, RBA20-0.66C2, required 12VDC, 30A, recommend LDD4012(30A, 12V)
50W diode-laser pump module, RBA30-1C2, required 18VDC, 30A, recommend LDD3020(30A, 18V)
75W diode-laser pump module, RBA34-1C2, required 24VDC, 25A, recommend LDD3024(25A, 24V)
20W diode laser, required 2VDC, 40A & TE cooler, recommend LDD4002T(40A, 2V)
30W diode laser, required 2VDC, 50A & TE cooler, recommend LDD5002T(50A, 2V)
60W diode laser, required 4VDC, 50A & TE cooler, recommend LDD5004T(50A, 4V)
110W diode laser, required 8VDC, 50A & TE cooler, recommend LDD5008T(40A, 2V)

Schematic Drawing of LDD-AAVV Series Drivers

Front panel Rear panel

LDD Series CW OEM Laser Diode Drivers

The LDD series is a new family of OEM laser diode drivers designed for the emerging high power laser diode industry. The LDD series is ideal for high power applications where economy is important and performance cannot be compromised.

Compact size is possible due to the low-loss Zero Voltage Switching inverter and incorporation of planar magnetics. The LDD is virtually wire free.

Power factor is greater than 0.99 and conducted emissions meet stringent European regulations. No additional line filter is required to meet EN 55011 emission requirements.

The LDD family has been designed with the knowledge that a high power laser diode is an expensive device. Rise and fall times are strictly controlled to reduce high voltage transients which could damage the laser diode.

ADVANTAGES

l Ideal for OEM applications Safe turn-on/turn-off Compact design

l Power factor correction

l Auxiliary +15V/-15V/+5V

l Low conducted emissions, low leakage

l ROHS Compliant

AVAILABLE POWER OUTPUTS ARE:

l 50W

l 100W

l 150W

l 250W

l 600W

l 1000W

l 1500W

l 3000W

l Output current up to 150A

Model	Poutmax	Ioutmax	Input Voltage	Size (L x W x H)
LDD-50-AA-VVOEM	50W	Up to 15A	90-264VAC	6.75” x 3.63” x 3.25” 17.1 x 9.2 x 8.26 cm
LDD-100-AA-VVOEM	100W	5A to 50A	90-264VAC	7.5” x 5.8 x 2.6” 19 x 14.7 x 6.6 cm
LDD-150-AA-VVOEM	150W	10A to 60A	90-264VAC
LDD-250-AA-VVOEM	250W	10A to 80A	90-264VAC
LDD-600-AA-VVOEM	600W	10A to 100A	90-264VAC	9.9” x 7.3” x 2.6” 25.1 x 18.5 x 6.6 cm
LDD-1000-AA-VVOEM	1000W	10A to 100A	90-264VAC
LDD-1500-AA-VVOEM*	1500W	10A to 100A	180-264VAC
LDD-3000-AA-VVOEM*	3000W	Up to 150A	180-264VAC	17” x 16.6” x 3.4” 43.2 x 42.2 x 8.6 cm

Other outputs available upon request

Auxiliary Outputs +5V @ 0.25A**

+15V @ 0.25A**

-15V @ 0.25A**

**(no auxiliary outputs available on LDD-50.)

AA = Maximum rated output current VV = Maximum compliance voltage

AA*VV cannot exceed Poutmax

*LDD-1500 and LDD-3000 require AC input voltage between 180-264VAC

RS-232 Option available

Other outputs available upon request

INPUT

l Voltage: See table above

l Power Factor: >.98

INTERFACE

l Connector: 15 Pin “D” Sub Female

l Current Program: 0-10V for 0-Max Current

l Current Monitor: 0-10V for 0-Max Current

l Voltage Monitor: 0-10V for 0-Max Voltage

PERFORMANCE

l Rise/Fall Time: <1msec standard (10% to 90% Full Current) (<350usec available upon request)

l Current Regulation: <0.5% of Maximum output current

l Current Ripple: <0.5% of maximum output current

l Current Overshoot: <1% of maximum output current

l Power Limit: Limited to maximum power with power fold-back circuit

ENVIRONMENT

l Operating Temp: 0 to 40°C

l Storage: -20 to 85°C

l Humidity: 0 to 90% non-condensing

l Cooling: Forced air

REGULATORY

l Safety: LDD-150/250: UL60950

l LDD-600/1000/1500: UL60950 (Industrial), UL60601-1 (medical)

l Emissions/Immunity: FCC 47 CFR Class A Emissions, EN55011:1998 Group 1 Class A Emissions,

EN61000-3-2, EN61000-3-3, EN60601-1-2:2001

LDD Interface
CONNECTOR TYPE: 15 PIN D-SUB FEMALE
(Refer to Figure 2, LDD Interface Schematic)
Pin #	Pin Name	Functional Voltage Level	Description
1	Enable (input)	High=RUN=+5V to +15V Low = OFF = 0V	The Enable function turns the output section of the power supply ON and OFF. When the power supply is enabled, current is delivered to load as programmed via Iprogram(+), Pin 7. Rise times resulting from Enable are approximately 25msec.
3	Interlock (input)	Open = OFF Connect to GND = RUN	The Interlock function can be connected to exter-nal interlock switches such as door or overtemp switches.
4	GND		Interface return.
5	*Vout Monitor: (output)	0-10V = 0-Voutmax	The output voltage of the supply can be monitored by Vout Monitor. See note below
6	Iout Monitor (output)	0-10V = 0-Ioutmax	The output current of the supply can be monitored by Iout Monitor.
7	Iprogram(+): (input)	0-10V = 0-Ioutmax	The power supply output current is set by applying a 0-10V analog signal to Iprogram(+).
8	Pulse Control (input) (LDD-3000 only)	TTL High = On TTL Low = OFF Default = On (LDD-3000 only)	The output of the LDD-3000 may be pulsed by applying a TTL signal to Pulse Control, pin 8. The amplitude of the output current pulse is deter-mined by the current level programmed via Pin 7, Iprogram(+). Rise fall times of <1msec are typical. Contact Lumina Power for faster rise and fall times. If left unconnected, the default will be ON for CW operation.
9	GND		Interface return.
10,11	+5V @ 0.25A		Auxiliary +5V power supply for user. Up to 0.25A output current capability. (not available on LDD-50)
	(output)
12	-15V @0.25A (output)		Auxiliary -15V power supply for user. Up to 0.25A output current available. (not available on LDD-50)
13,14	+15V @0.25A (output)		Auxiliary +15V power supply for user. Up to 0.25A output current available. (not available on LDD-50)
15	GND		Interface return.
* If maximum compliance voltage is less than 10V, Vout Monitor will read output voltage directly. If maximum compliance voltage is greater than 10V, then Vout Monitor will be scaled such that 0-10V = 0-Voutmax.

LDQCW Series OEM Diode Laser Drivers

The LDQCW series is a new family of OEM diode laser pulsars designed for the emerging high power diode laser industry.

Lumina Power LDQCW diode drivers can be configured for compliance voltage requirements up to 100V.

Maximum efficiency is realized with circuitry that minimizes losses across the output pulsing circuit. Compact size is possible due to the low-loss Zero Voltage Switching inverter and incorporation of planar magnetics.

Leakage current is less than 250uA, power factor is greater than 0.99 and conducted emissions meet stringent European regulations. No additional line filter is required to meet EN 55011 emission requirements.

ADVANTAGES

l <25uSec rise/fall times

l 200A pulsing capability

l Power factor correction

l Auxiliary +/-15V outputs

l Compliance voltage capability up to 100V

l Ideal for OEM applications

l ROHS Compliant

AVAILABLE POWER OUTPUTS ARE:

l LDQCW-50: 50Wavg

l LDQCW-250: 250Wavg

l LDQCW-600: 600Wavg

l Pulsed output current up to 200A

Model	Poutmax	Ioutmax	Input Voltage	Size (L x W x H)
LDQCW-50-AA-VV-ZZ	50W	120Amax	90-264VAC	9.9” x 7.3” x 2.6” 25.2 x 18.6 x 6.6 cm
LDQCW-250-AA-VV-ZZ	250W	200Amax	90-264VAC	10.9” x 7.3” x 4.81” 27.2 x 18.5 x 12.2 cm
LDQCW-600-AA-VV-ZZ	600W	200Amax	90-264VAC	10.9” x 7.3” x 4.81” 27.2 x 18.5 x 12.2 cm

AA = Maximum pulsed output current

VV = Required compliance voltage (unit will drive a load between 75% and 100% of this voltage)

ZZ = Maximum pulse width at maximum pulsed output current -specified by customer

Note 1: Average power must not exceed Poutavg

Note 2: Output current and voltage compliance can be configured for individual requirements

Auxiliary Outputs: +/-15V @ 0.25A (Auxiliary output on LDQCW-50: +12V @50mA)

Other configurations available upon request

INPUT

l Voltage: See table above

l Power Factor: >.98

OUTPUT

l Poutavg See table above

l Ipulsemax 200Apeak

l Iavgmax 80A

l Vcompliancemax Configurable up to 100V

INTERFACE

l Interface Connector: 15 Pin “D” Sub Female

l Pulse Enable: +5V TTL to +15V CMOS

l Current Program: 0-10V for 0-Ioutmax

l Current Monitor: 0-10V for 0-Ioutmax

l Voltage Monitor: 0-10V for 0-Voutmax

PERFORMANCE

l Pulse Width Range: 50usec to 2msec

l Max Rep Rate: 10kHz

l Rise/Fall Time: <25uSec

l Current Regulation: 1.0% of Maximum output current

l Current Ripple: <0.5% of maximum output current

l Current Overshoot: <5% of maximum output current

l Power Limit: Limited to maximum average power

l with power fold-back circuit

ENVIRONMENT

l Operating Temp: 0 to 40°C

l Storage: -20 to 85°C

l Humidity: to 90% non-condensing

l Cooling: Forced air

REGULATORY

l Safety: Compliant with UL60950

MECHANICAL

l Dimensions: See table above

l Input Power Connector: Phoenix DMKDS 2,5

l Terminal Block

l Output Connector: Ampower Wavecrimp

l Connector #765608-1

l (Strip Line system)

LDQCW Interface

LQCW-250/600-AA-VV-ZZ INTERFACE		LDQCW-50-AA-VV-ZZ INTERFACE
Connector Type: 15 pin D-sub Female		Connector Type: 15 pin D-sub Female
Pin	#Pin Name	Pin	#Pin Name
1	Pulse Control	1	Enable
2,3,8	GND	3	Interlock
4	Temp Fault	4,9	GND
5	Iout Monitor	5	Vout Monitor:
6	Iprogram (+)	6	Iout Monitor
7	Poor Load Match	7	Iprogram(+):
11	+15V @0.25A	8	Pulse Control
12	Ready Status	10,11,12	N/C
13	N/C	13,14	+12V @50mA
14	Enable
15	-15V @0.25A

diode laser modules laser diode array