iC-WKN

iC-WKN
15V CW LASER DIODE DRIVER
Rev A1, Page 1/7
FEATURES
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APPLICATIONS
CW operation up to 300 mA from 2.4..15 V supply voltage
Rapid soft start after power-on typical within 70 µs
Optimised for N-type laser diodes
Simple power adjustment via the external resistor
Control loop accuracy better than 1.5 % with changes in
temperature, supply voltage and load current
Integrated reverse polarity protection for the iC and laser
diode
Strong suppression of transients with very small external
capacitors; integrated flyback path
Permanent shutdown with excessive temperature and
overcurrent (i.e. if the laser diode is damaged or the
feedback current path fails)
Two feedback inputs permit all current LD types to be used
(M/P/N configurations)
Modulation via the feedback inputs is possible
Wide monitor current range from 2.5 µA to 6.25 mA
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LD modules
Blue laser diodes
PACKAGES
SO8tp
BLOCK DIAGRAM
6
+2.4..+15 V
VCC
LDA
7
CLDA
CVCC
..1 µF..
..47 nF..
TRANSIENT
PROTECTION
-
iC-WKN
1
MDK
4
MDA
5
MD
LD
+
VREF
0.5 V
CI
D
LDK
2
8
NQ
R
CI
OVER CURRENT/
OVER TEMP.
RGND 1
GND
..100 nF..
FEEDBACK MON.
GND
AGND
RM
80..200 kΩ
CM
47 pF
3
0..3 Ω
suitable laser diode configurations: N, P, M
MD
MD
Copyright © 2003, iC-Haus
LD
LD
LD
MD
www.ichaus.com
iC-WKN
15V CW LASER DIODE DRIVER
Rev A1, Page 2/7
DESCRIPTION
iC-WKN is a driver for laser diodes in continuous wave operation with laser currents of up to 300 mA, which
requires only four external components. The wide power supply range of up to 15 V allows for operation of
blue laser diodes.
The iC includes integrated circuitry protecting against destruction by ESD, excessive temperature and overcurrent plus a soft start of the regulator to protect the laser diode when the power supply is switched on. The
iC also filters the laser diode power supply for transients.
The regulator is adapted to the laser diode by an external resistor at MDA. The monitor current acts as a
reference and is regulated independent of the influence of temperature and supply voltage (range: 2.5 µA to
6.25 mA). The capacitor at CI determines the control time constants and start-up time.
A second monitor input, pin MDK, allows the driver to be used for other types of laser diode configuration;
alternatively, it can be used as an analog modulation input (DC to a few kHz).
In the event of failure, such as overcurrent in the laser path with a lack of feedback, for example, a quick
power lockout is activated. The shutdown persists until power is reapplied, permitting a restart. The strain on
power packs and batteries is relieved and the laser class is retained even in the event of a disturbance.
iC-WKN offers additional protection by means of spike detection at pin MDA. Should spikes or oscillation
occur at pin MDA the power lockout is activated after a time-out.
PACKAGES SO8tp to JEDEC Standard
PIN CONFIGURATION SO8tp
(top view)
PIN FUNCTIONS
No. Name Function
1
2
3
4
GND
CI
AGND
MDK
5
MDA
6
7
8
VCC
LDA
LDK
Ground
Capacitance for Power Control
Reference Ground for CI, RM
Monitor Input 2
(MD Cathode, modulation)
APC Setup, Monitor Input 1
(MD Anode)
+2.4 .. +15 V Supply Voltage
Laser Supply (LD Anode)
Driver Output (LD Cathode)
iC-WKN
15V CW LASER DIODE DRIVER
Rev A1, Page 3/7
ABSOLUTE MAXIMUM RATINGS
Beyond these values damage may occur; device operation is not guaranteed.
Item
Symbol
Parameter
Conditions
Fig.
Unit
Min.
Max.
G001 VCC
Voltage at VCC
-6
16
V
G002 I(VCC)
Current in VCC
-10
900
mA
G003 I(CI)
Current in CI
-10
10
mA
G004 I(LDA)
Current in LDA
-900
10
mA
G005 I(LDK)
Current in LDK
-10
900
mA
G006 I(MDA)
Current in MDA
-10
10
mA
G007 I(MDK)
Current in MDK
-10
10
mA
G008 I(AGMD) Current in AGND
-10
10
mA
G009 I(GND)
Current in GND
-900
10
mA
E001 Vd()
ESD Susceptibility at all pins
2
kV
TG1 Tj
Operating Junction Temperature
-40
150
°C
TG2 Tj
Storage Temperature Range
-40
150
°C
MIL-STD-883, Method 3015, HBM
100 pF discharged through 1.5 kΩ
THERMAL DATA
Operating Conditions: VCC = 2.4..15 V
Item
Symbol
Parameter
T1
Ta
Operating Ambient Temperature
Range
T2
Rthja
Thermal Resistance Chip/Ambient
Conditions
Fig.
Unit
Min.
Typ.
-40
85
soldered to PCB,
no additional cooling areas
therm. pad soldered to approx. 2cm²
cooling area
All voltages are referenced to ground unless otherwise noted.
All currents into the device pins are positive; all currents out of the device pins are negative.
Max.
°C
K/W
170
30
50
iC-WKN
15V CW LASER DIODE DRIVER
Rev A1, Page 4/7
ELECTRICAL CHARACTERISTICS
Operating Conditions: VCC = 2.4..15 V, RM = 80 Ω..200 kΩ, Tj = -40..125 °C unless otherwise noted
Item
Symbol
Parameter
Conditions
Tj
°C
Fig.
Unit
Min.
Typ.
Max.
Total Device
001 VCC
Permissible Supply Voltage
002 I(LDK)m
Permissible Laser Drive Current
003 Idc(VCC) Supply Current
without load path
2.4
power control range
10
closed control loop,
I(MDK) = 0, I(LDK) = 290 mA
004 Ioff(VCC) Supply Current on Reset
005 Ir(VCC)
Reverse Supply Current
RM= 50 kΩ, VCC = -6 V
006 ton()
Turn-on Delay
VCC: 0 ÷ 5 V to 95 % I(LDK),
I(LDK) = I(LDK)m;
CI = 47 nF
CI = 100 nF
15
V
300
mA
10
20
mA
2.4
5
mA
-6
mA
70
150
µs
µs
007 Vc()hi
Clamp Voltage hi at VCC, LDA
I()= 10mA, other pins open
16
24
V
008 Vc()hi
Clamp Voltage hi at LDK
V()< VCC + 1 V; I() = 10 mA,
other pins open
16
24
V
009 Vc()hi
Clamp Voltage hi at MDK vs. LDA I()= 10mA, other pins open
8
1
V
010 Vc()hi
Clamp Voltage hi at MDA, CI
I() = 10 mA, other pins open
1.1
4
V
011 Vc()lo
Clamp Voltage lo at
VCC, LDA, MDK, MDA, CI
I() = -10 mA, other pins open
-9
V
Reference and Monitor Inputs MDA, MDK, AGND
101 V(MDA)
Reference Voltage at MDA
closed control loop,
V(LDK) > Vs(LDK)
480
500
520
mV
120
µV/°C
-100
100
nA
-1
1
nA/°C
0.3
1
%
%
102 dV(MDA) Reference Voltage Temperature
Drift at MDA
see 101
103 Ierr(MDA) Input Current in MDA
closed control loop,
I(MDK) = 0, I(LDK) = 10..290 mA
104 dI(MDA)
Input Current Temperature Drift
in MDA
see 103
105 APCerr
Control Error
RM = 10 kΩ, Tj = 0..80 °C
RM = 10 kΩ, Tj = -40..125 °C
106 dI(RM)
Supply Voltage Suppression
V(VCC): 2.4 ÷ 15 V,
I(LDK) = 290 mA
-0.2
0.2
%/V
107 Rgnd()
Resistor AGND-GND
3
Ω
301 Vf(MDK) Voltage at MDK
Vf() = V(LDA) - V(MDK);
I(MDK) = 1 µA..1 mA
0.46
2
V
302 CR()
Current Ratio I(MDA)/I(MDK)
I(MDK) = 1 µA..1 mA
I(MDK) = 1..6 mA
0.98
0.95
1.02
1.05
303 TC()
Current Ratio Temperature
Coefficient I(MDA)/I(MDK)
I(MDK) = 1 µA..1 mA
I(MDK) = 1..6 mA
-0.005
-0.025
0.005
0.025
%/°C
%/°C
350
700
mV
mV
Laser Driver LDA, LDK
201 Vs(LDK) Saturation Voltage at LDK
I(LDK) = 40 mA
I(LDK) = 290 mA
202 dI(LD)
Load Balancing Error
I(LD) = 20 mA,
I(LDK): 20 mA ÷ 290 mA
-1.5
1.5
%
203 It(LDK)
Overcurrent Threshold in LDK
V(LDK) = 2..5.5 V
300
700
mA
1.2
A
lack of feedback:
I(MD) = 0 bis I(LDK) = It(LDK);
CI = 47 nF
CI = 100 nF
85
170
µs
µs
I(LDK) < 290 mA
1.3
V
203 It(LDK)m Maximum Overcurrent Threshold
in LDK
204 toff()
205 Vf()
Overcurrent Reset Delay
Flyback Diode Forward Voltage
LDK-LDA
iC-WKN
15V CW LASER DIODE DRIVER
Rev A1, Page 5/7
ELECTRICAL CHARACTERISTICS
Operating Conditions: VCC = 2.4..15 V, RM = 80 Ω..200 kΩ, Tj = -40..125 °C unless otherwise noted
Item
Symbol
Parameter
Conditions
Tj
°C
206 Rvcc()
Transient Protection Resistor
207 Vt(MDA) Shutdown Threshold at MDA
Fig.
Unit
Min.
VCC to LDA
t > 1 µs
Typ.
Max.
1.3
Ω
0.7
2
V
0.6
1.2
1
0.6
1.9
1.9
1.7
1.2
V
140
165
°C
Control Release Flip-Flop
401 VCCen
402 Toff
Set Threshold for Enable
Flip-Flop
Overtemperature Shutdown
-40
27
125
iC-WKN
15V CW LASER DIODE DRIVER
Rev A1, Page 6/7
DESCRIPTION OF FUNCTIONS
Turn-on behaviour
After switching the supply voltage on, the output stage
remains disabled until the internal enabling flip-flop is
set by a sufficiently high voltage at LDA.
A quick soft start follows during phase I; the control
capacitor CI is charged at an accelerated rate until the
voltage at pin MDA reaches 1/3 of its nominal value.
With V(MDA) > 1/3 V(MDA)nom phase II starts, the
controlled start-up. The transition to CW operation
(phase III) is gradual and primarily determined by the
values of CI and RM. CI is properly dimensioned when
the voltage overshoot at MDA is at a minimum.
Fig. 1: Turn-on behaviour
Turn-off behaviour
iC-WKN works without a fixed undervoltage lockout,
thus the laser diode forward voltage is the prime factor
determining the lowest possible supply voltage.
If the voltage drops below this value, the output stage
is forcibly saturated and the laser current decreases.
iC-WKN simultaneously discharges the control
capacitor CI so that no excessive laser diode currents
occur when the supply voltage rises again.
Disruptions in operation
The power control is shut down with excessive driver
temperature or when the laser current reaches the
overcurrent shutdown threshold, for example when the
Fig. 2: Turn-off behaviour
feedback is interrupted. If the monitor diode or the bias
resistor RM fail, the device is shut down in less than
250 µs, provided that the supply voltage applied is high enough. When modulating the laser current via pin MDK,
excessive voltage occurring at pin MDA also may cause a shutdown.
This specification is for a newly developed product. iC-Haus therefore reserves the right to modify data without further notice. Please contact
us to ascertain the current data. The data specified is intended solely for the purpose of product description and is not to be deemed
guaranteed in a legal sense. Any claims for damage against us - regardless of the legal basis - are excluded unless we are guilty of
premeditation or gross negligence.
We do not assume any guarantee that the specified circuits or procedures are free of copyrights of third parties.
Copying - even as an excerpt - is only permitted with the approval of the publisher and precise reference to source.
iC-WKN
15V CW LASER DIODE DRIVER
Rev A1, Page 7/7
APPLICATION NOTES
Application notes on iC-WKN and data sheets of the demo board are available as separate documents.
ORDERING INFORMATION
Type
Package
Order designation
iC-WKN
SO8tp
iC-WKN SO8tp
WKN demo board
WKN4D
For information about prices, terms of delivery, other packaging options etc., please contact:
iC-Haus GmbH
Am Kuemmerling 18
D-55294 Bodenheim
GERMANY
Tel +49-6135-9292-0
Fax +49-6135-9292-192
http://www.ichaus.com