1 elm185xb laser diode driver elm185xb is a bipolar type laser diode driver ic with internal apc circuit which consists of a reference voltage source, an error ampli?er, and a thermal shutdown circuit for protection. with reference voltage source, the output of laser is comparatively stable during the change of power voltage and temperature. with its small package, elm185xb is possible to be assembled within small areas on the board. when control loop damage occurs, elm185xb is also capable of limiting the laser drive current; limited current value can be adjusted by an external resister on ilm. kld output drive current can reach up to 400ma (max.). for avoidance of damage of laser diode, the zener diode which is included in elm185xb is able to absorb 8v surge between vcc-gnd. elm185xb is able to drive various types of laser diode modules (ldm); please refer to applicable laser diode modules for further information. elm185xb can not only drive laser diode by apc control, but also by constant current with internal constant current setup function; therefore, elm185xb can also be used as constant current driver for laser diode, high luminous led, etc. ? low voltage operation : 2.0v ? low current consumption operation : typ.1ma ? laser drive current : max.400ma ? internal voltage reference : typ.0.30v ? thermal shutdown circuit : typ.150c ? package : sot-26, vson6-2x2 ? zener diode for surge absorption included ? driver for laser diode in laser pointer, laser level, etc. ? driver for constant load current such as led, etc. features application maximum absolute ratings parameter symbol limit unit operation voltage vcc gnd-0.3 to 7.0 v cmp voltage vcmp gnd-0.3 to 7.0 v ilm voltage vilm gnd-0.3 to 7.0 v kld voltage vkld gnd-0.3 to 18.0 v amd voltage vamd gnd-0.3 to vcc+0.3 v kld current ikld 500 ma power dissipation pd 300 (sot-26) mw 1000 (vson6-2x2) operation temperature top -30 to +85 c storage temperature tstg -40 to +125 c general description 10 -
2 pin con?guration sot-26(top view) pin no. pin name 1 amd 2 gnd 3 cmp 4 ilm 5 vcc 6 kld 1 2 3 6 5 4 pin no. pin name 1 kld 2 vcc 3 ilm 4 cmp 5 gnd 6 amd 1 1 2 2 3 3 4 4 5 5 6 6 vson6-2x2(top view) vson6-2x2(bottom view) 1 1 2 2 3 3 4 4 5 5 6 6 selection guide elm185xb-s symbol a package b: sot-26, g: vson6-2x2 b product version b c taping direction s: refer to pkg file elm185 x b - s a b c elm185xb laser diode driver 10 -
3 block diagram pin name content amd ld monitor input connected to anode of monitoring diode cmp phase compensation input of phase compensation capacitor for control feedback loop stabilization ilm ld current limit input of detection of laser diode driver drive current limit kld ld drive output connected to cathode of laser diode vcc power output power input of ic gnd ground ground of ic pin description description : the internal apc circuit of elm185xb controls the output of laser oscillation at constant value with the feedback of monitor photo diode light output current. monitor photo diode light current will be changed to voltage by resistance and becomes the input of amd; this voltage is set to be 0.3v, which is the same as the reference voltage inside ic. it is possible to acquire constant laser output by the laser diode drive current which is controlled by this voltage; hence, laser light output can be adjusted by the resistor connected to amd. laser diode drive current can be changed to voltage by resistance connected to ilm, and the increase of this voltage is limited under current limit voltage (typ.0.15v). ilm is also capable of avoiding the damage of overmuch drive current of laser diode which is caused by control loop abnormality . for stability of control return loop, a phase compensation capacitor is required to be connected to cmp. please set to small value at least above 3nf when making on/off control with fast speed. laser diode is driven by the open collector output of npn transistor inside elm185xb; therefore, drive current (max.18v) higher than power voltage of ic can be added as drive voltage of laser diode. elm recommends inserting resistance between laser diode module (ldm) and kld if the drive voltage is high so as to disperse power loss. by monitor current detection function of elm185xb, amd can be used as on/off control pin. it is also possible to control switching of laser diode when the input source is from external control signal; the on/off control will become 0.3v threshold voltage. by 7v voltage, the zener diode between power and ground of elm185xb is able to absorb power surge; meanwhile, the zener diode is also capable of decreasing the damage of surge by clipping the surge voltage of power line. elm185xb laser diode driver d r i v e r c o n t r o l k l d + - v r e f i l d v c c c m p a m d g n d d r i v e r n p n t r c o n t r o l a m p + - i l m v r e f l i m i t c u r r e n t l i m i t c m p 10 -
4 elm185xb laser diode driver marking sot-26 symbol mark content a, b, c 2nw series : 185 package : sot-26 d 0 to 9 and a to z ( i, o, x excepted) assembly lot no. vson6-2x2 a b c 1 8 5 symbol mark content 185 185 185 series a, b, c 0 to 9 and a to z ( i, o, x excepted) assembly lot no. parameter symbol condition min. typ. max. unit operation voltage vcc 2.0 6.5 v current consumption icc vcc=3.6v 1 3 ma amdreference voltage vamd vcc=3.6v 0.285 0.300 0.315 v vamd temperature characteristics vamd top vcc=3.6v 200 ppm/c kld current idkld vcc=2.7v, vkld=1.0v 400 ma kld leak current ilkld vcc=5.5v 1.0 a ilm current limit voltage vilm vcc=3.6v 0.13 0.15 0.17 v max. external clock frequency fext vcc=3.6v 20 khz amd input current iamd vcc=5.5v, vamd=1.0v -0.5 0.5 a zener diode avalanche voltage zdbv 6.8 8.0 v electrical characteristics 10 - a b c d ?
5 application circuit example 1 (continuous drive circuit) circuit that laser diode is driven by constant output continuously. ldm, which is the combination of laser diode (ld) and monitor diode (md), is commonly used. based on various ways of handling poles and common pins, there are many different types of internal wire of anode and cathode of ldm. examples which ldm can be easily connected to elm185xb are shown as following three application circuits. the fittest value of circuit constants will be different according to the used laser diode. table 2 shows the example when the forward current of laser diode is 35ma and monitor diode light current is 0.1a. circuit (1) circuit (3) circuit (2) elm185xb laser diode driver 10 - e l m 1 8 5 x b d 1 l d m d d 2 c 2 v 1 c m p i l m g n d v c c r 1 v r 1 c 1 r 2 k l d a m d l d m e l m 1 8 5 x b d 1 l d m d d 2 c 2 v 1 g n d v c c k l d a m d r 1 v r 1 c 1 r 2 c m p i l m t r 2 t r 1 l d m e l m 1 8 5 x b d 1 l d m d d 2 c 2 v 1 g n d v c c k l d a m d r 1 v r 1 c 1 r 2 l d m c m p i l m
6 parameter symbol min. typ. max. unit action current iop - 35 50 ma monitor current im 0.05 0.10 0.30 ma typical electric characteristics of ldm no. parts recommended absolute ratings notes r1 *1 ?xed resistor 1.0k ld output adjustment vr1 *2 adjustable resistor 5.0k ld output adjustment r2 *3 ?xed resistor 3.3 current limit setting (no limit under 0) c1 ceramic capacitor 3300pf control loop stabilization c2 electrolysis, ceramic, etc. 1f to 100f power stabilization tr1 tr2 pnp transistor small signal transistor monitor current mirror circuit table 1 recommendation of absolute ratings of each circuit when using the ldm of table 1 table 2 * 1 r1=0.3/ im (max.) * 2 (r1 + vr1) = 0.3/ im (min.) * 3 r2=0.15/ iop (max.) for pulse drive, please add resister to amd pin in circuit (1) to control signal of pulse drive. adjustable resistor (vr1) is inserted in the place as shown above in order to adjust monitor current; pulse drive control signal shall be added between r1 and vr1. r3: resistor of the input of pulse drive control signal. vcc is set to be higher than vamd=0.30v(typ.) vcc * r1 / (r3 + r1) > vamd e.g.) when vcc=3.3v, r1=1k, r3 < r1 * (vcc-vamd)/vamd = 1k * (3.3-0.3)/0.3 = 10k. the control signal is logic level; laser light will be switched off when the signal is h and switched on when it is l. * * * * application circuit example 2 (pulse drive circuit) for application circuit of intermittent diode output controlled by external signal, please refer to application circuit (4). max. frequency can set to be on/off by limit of response speed of laser diode output control loop is 20khz.by using logic gate, the control of on/off is easy; it is required that the resistances of r1, r3 and vr1 are much larger than the output resistance of logic gate. circuit (4) elm185xb laser diode driver 10 - e l m 1 8 5 x b d 1 l d m d d 2 c 2 v 1 i l m g n d v c c k l d a m d l d m r 1 v r 1 c m p r 2 c 1 r 3 p u l s e i n
7 ? pulse drive wave this drive wave is tested base upon standard circuit (4) under the conditions that r1=22k, r2=2.2, r3=220k, vr1=0, c1=3300pf, c2=1f, v1=3.6v ch1 2.00v/div ch2 500mv/div ch3 100mv/div 50.0s/div ch3 ilm wave= current wave ch2 amd wave ch1 control signal pulse in application circuit example 3 ( drive circuit with detection circuit of single fault mode) based on different applications of laser, it is required that laser output can be maintained in safety region when single fault error happens. the example of single fault detection circuit is shown as application circuit (5). if any of following 3 conditions happens, laser output of elm185xb will be overmuch when single fault of all pin occurs: 1) ground short fault happens to kld (ground current will be ?owed directly from laser and thus result in overmuch of laser diode light output.) 2) ground short fault happens to amd (laser diode light output will be overmuch since output is judged to be 0) 3) vcc short fault happens to cmp (laser diode light output will be overmuch since circuit cannot be controlled.) if any of these 3 conditions is detected, laser drive will be stopped forcibly and become single fault detection circuit. meanwhile, the condition when single fault occurs is the same as initial power input, solutions (start-up circuit) of error detection for normal action when the circuit starts is required additionally . for example of this safety circuit, please refer to application (5).when abnormality occurs, elm742b, the comparator will detect the error, the latch which is composed by elm7su04bw will be turned reversely, and elm33405ca, p-ch mos will be off and thus shut down the power. when comparison voltage of 3 comparators is under 0.9v of kld, under 0.1v of amd, and above 2.5v of cmp, it will be judged as abnormality by or condition of the comparator and thus the power will be shut down. this circuit is only for reference use; con?rmation of safety standard ?t actions on actual application is still required. start-up circuit consists of time constant of r1 and c1.the ratio of disperse voltage of r3, r4, r5, r8 is required to be changed with power voltage. for best solution, elm recommends using elm742b as the voltage detector, elm7su04bw as the latch and elm33405ca as the transistor. this circuit is for reference use only; additional inspection of safety standard suitableness is required. it is possible to insert detection circuit as shown in circuit (2) and (3) in this circuit. elm185xb laser diode driver 10 -
8 circuit (5) application circuit example 4 (white led constant current drive circuit) example of application of elm185xba as led constant current drive current is shown as circuit (6). this circuit is white led drive circuit which is driven by constant current with external resistance of ilm. since the voltage limit of kld can reach 18v, it is possible to design several leds in series connection. the vcc voltage is controlled to be constant by internal zener diode of elm185xb. circuit (6) this circuit is designed by 3 series-connected white leds with power of 12v. in this circuit, amd is not used to control light feedback, but on/off only. current control, which is constant current type, is monitored by the voltage of ilm. capacitors of 0.1f-0.01f for anti-oscillation are connected to cmp. resistance of r7 is set by constant current value; it will be 34ma under 4.7. this value is calculated by the formula that iout=0.16/r7. the power of elm185xb will be lowered from 12v to 7v by r1 and internal zener. light will be turned on when the switch of w1 is on, and be off when it is off. elm185xb laser diode driver 10 - e l m 1 8 5 x b m d v c c k l d a m d r 7 2 . 2 c m p g n d i l m r 6 3 k d 1 l d d 2 + - + - + - u 3 u 2 u 1 r 2 1 0 0 k 1 0 0 k r 1 0 . 1 c 1 e l m 7 4 2 b a 1 r 5 2 . 2 k c 2 3 3 0 0 p r 8 3 3 k r 4 6 8 k r 3 1 0 0 k 0 . 1 v 0 . 9 v 2 . 5 v 1 0 c 3 + e l m 3 3 4 0 5 c a v 1 5 v m 1 a 2 e l m 7 s u 0 4 b w ? ? e l m 1 8 5 x b v c c k l d r 7 4 . 7 c m p g n d i l m 1 0 n c 2 a m d r 2 1 0 0 k r 1 4 . 7 k 1 c 1 d 2 d 1 d 3 + v 1 1 2 v s w i t c h w h i t e l e d w 1 ? ?
9 notice 1. safety standard for different applications of laser diode, it is sometimes required that the application should obey the safety standard which is ruled by the law. please make complete con?rmation about which safety or law should be obeyed while designing the circuit. elm185xb drives laser diode by the conditions which is set by external circuit; please con?rm the actual output of light by instruments such as light power meter. 2. laser diode damaged caused by surge voltage laser diode can be easily damaged by static or surge voltage when the power is turned on/off because of its low surge resistance. elm185xb includes zener for absorption of surge; for best protection, elm recommends connecting elm185xb and laser diode in the shortest distance. connection in shortest distance applicable laser diode modules type 1 1 : ld cathode 2 : ld anode, md cathode 3 : md anode type 2 type 3 1 : ld anode 2 : ld cathode, mdcathode 3 : md anode 1 : ld anode 2 : ld cathode, md anode 3 : md cathode it is possible to connect separate ld and md to elm185xb. when connecting different ldms other than these 3 types, additional parts are required. elm185xb laser diode driver 10 - e l m 1 8 5 x b 1 2 3 4 5 6 a m d g n d c m p i l m v c c k l d k a l d
10 electrical characteristics 1. icc consumption current 0 2 4 6 8 10 0 1 2 3 4 25 ? -30 ? 85 ? vcc (v) icc (ma) vcc vs icc icc consumption current test circuit characteristics of power voltage vs. consumption current 2. vamd standard voltage 2 4 6 8 0.2 0.25 0.3 0.35 25 ? -30 ? 85 ? vcc (v) vcc -vamd vamd (v) vamd standard voltage test circuit power voltage vs. amd standard voltage 3. ikld constant current 0 5 10 15 0 20 40 60 80 100 120 140 160 1 ? 2.2 ? 4.7 ? vkld (v) vkld - ikld ikld (ma) ikld constant current test circuit kld output current voltage characteristics * when vkld, ikld are large, protection circuit operates according to the heat generation of ic; the limit will be determined by heat characteristic of actual assembly . elm185xb laser diode driver 10 - e l m 1 8 5 x b 1 2 3 4 5 6 a m d g n d c m p i l m v c c k l d a v v c c 0 . 1 i c c ? ? e l m 1 8 5 x b 1 2 3 4 5 6 a m d g n d c m p i l m v c c k l d v v a m d e l m 1 8 5 x b 1 2 3 4 5 6 a m d g n d c m p i l m v c c k l d a v i k l d v k l d r i l m 5 . 0 v 0 . 1 ? ?
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