View SY88236ALMGTR_4171989.PDF datasheet online --- IC-ON-LINE

Datasheet File OCR Text:

sy88236l/al 2.5gbps burst mode laser driver with integrated limiting amplifier micrel inc. ? 2180 fortune drive ? san jose, ca 95131 ? usa ? tel +1 ( 408 ) 944 - 0800 ? fax + 1 (408) 474 - 1000 ? http://www.micrel.com june 2009 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 general description the sy88236l is a single supply 3.3v integrated burst mode laser driver and post amplifier for a - pon, b - pon, epon, ge - pon, and g - pon applications with data rates from 155mbps up to 2.5gbps. the driver can deliver mod u lation current u p to 85ma, and provides a high compliance voltage that makes it suitable for high - current oper a tion with the laser dc - coupled to it. the post amplifier can detect signals with amplitude as low as 5mv pp . the sy88236al is a version of the sy88236l without 50 ? termination resistors at the inputs of the driver and the post amplifier. the sy88236al is to be used specially in sff modules mounted on onu mother boards which have preinstalled terminations. removing post amplifier input terminations will allow for re ceiver gain control. all support documentation can be found on micrel?s web site at: www.micrel.com . features ? 2.4v minimum laser compliance voltage ? operation up to 2.5gbps ? fast burst mode enable/disable delay ? modulat ion current up to 85ma ? bias current up to 70ma ? infinite bias current hold time between bursts ? bias, modulation, and power monitoring ? high input sensitivity post amplifier, 5mv pp ? programmable los level ? available in 32 - pin (5mm x 5mm) qfn package application s ? multi - rate burst mode applications: a - pon, b - pon, g - pon, e - pon, ge - pon ___________________________________________________________________________________________________________ typical application
micrel, inc. sy88236l/al june 2009 2 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 ordering information (1) part number voltage tem perature range package type package marking lead finish sy88236lmg 3.3v ? 40 to +85c qfn -32 sy88236l with pb - free bar - line indicator nipdau pb - free sy88236lmgtr (2) 3.3v ? 40 to +85c qfn -32 sy88236l with pb - free bar - line indicator nipdau pb - free sy88 236almg 3.3v ? 40 to +85c qfn -32 sy88236a with pb - free bar - line indicator nipdau pb - free SY88236ALMGTR (2) 3.3v ? 40 to +85c qfn -32 sy88236a with pb - free bar - line indicator nipdau pb - free notes: 1. contact factory for die availability. dice are guara nteed at t a = +25c, dc electricals only. 2. tape and reel.
micrel, inc. sy88236l/al june 2009 3 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 pin configuration 32 - pin qfn pin description pin number pin name pin function 1 los/sd_sel los or sd selection, ttl input. set high, connect to vcc, or leave open to select los. set low or connect to gnd to select sd. 2 loslvl loss -of - signal level set. a resistor from this pin to v cc sets the threshold for the data input amplitude at which los will be asserted. 3 los/sd loss -of - signal (los selected): asserts high when the data input amp litude falls below the threshold set by los lvl . signal detect (sd selected): asserts low when the data input amplitude falls below the threshold set by los lvl . 4 jam active low ttl/cmos. internally pulled - up with 75k ?. connect to gnd or apply a low level signal (<0.8 v) to enable the post amp output. can be shorted to los/sd (pin 3) to create a squelch function. the polarity of this input follows the polarity of los/sd. 6 d in+ sy88236l: driver non - inverting input data. internally terminated with 50 ? to a reference vol t age. sy88236al: driver non - inverting input data. no internal termination. 7 din - sy88236l: driver inverting input data. internally terminated with 50 ? to a reference vol t age. sy88236al: driver inverting input data. no internal termination. 9 ben+ non - inverting burst enable. accepts any input, single- ended or differential: ttl/cmos, lvpecl, cml, lvds, and hstl. ben requires an external termination. see fi gure 2 -a -d. 10 ben - inverting burst enable. accepts any input, single - ended or differential: ttl/cmos, lvpecl, cml, lvds, and hstl. ben requires an external termination. see figure 2 - a -d. 11 txdis internally pulled - up. pull - down with a 22k ? or lower resistance or apply a low level signal (<0.8 v) to enable bias and modulation. keep floating or apply a high level (>2v) to disable bias and modulation.
micrel, inc. sy88236l/al june 2009 4 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 pin description (continued) pin number pin name pin function 12 apcset bias current setting and control. the bias current is set by installing an external resistor from this pin to ground or using a current source. connect a 50k ? resistor to gnd for open loop operation. 13 modset modulation current setting and control. the modulation cu rrent is set by installing an external resistor from this pin to ground or using a current source. 14 biasmax install a resistor between this pin and gnd to set the maximum bias current for the closed loop operation. the apc loop controls the bias current up to the level of biasmax. when the bias current reaches the maximum value set through this pin, the driver continues to sink a current equal to this maximum. for open loop operations, this pin sets the bias current. 15 modmon modulation current monito r. provides a current, which represents 1/100 of the modulation current. install a resistor between this pin and gnd to convert that current to a voltage proportional to the modulation current. 18 mod - inverted modulation current output. provides modulat ion current when input data is neg a tive. 19 mod+ non - inverted modulation current output. provides modulation current when i n put data is positive. 21 bias bias current output, sources current when ben+ is high. connect to the cathode of the laser through a resistor. 22 md input from the laser monitoring photodiode. connect to the anode of the laser photodiode for apc operation. 23 biasmon bias monitor. provides a current, which represents 1/50 of the bias current. install a resistor between this pin and gnd to convert that current to a voltage. 24 rssi received signal strength indicator. install a resistor from this pin to gnd to get a voltage proportional to the received signal. 25 /apcfault indicates apc failure when low. active low ttl/cmos. 27 ri n+ sy88236l: post amplifier non - inverting input data. internally terminated with 50 ? to a reference vol t age. sy88236al: post amplifier non - inverting input data. no internal termination. 28 rin - sy88236l: driver inverting input data. internally terminat ed with 50 ? to a reference vol t age. sy88236al: driver inverting input data. no internal termination. 30 rout - post amplifier complementary cml data output. 31 rout+ post amplifier true cml data output. 5, 8, 16, 24, 29 gnd ground. ground and exposed pad must be connected to the plane of the most negative potential. 17, 20, 32 supply voltage. bypass with a 0.1f//0.01f low esr capacitor as close to vcc pin as possible.
micrel, inc. sy88236l/al june 2009 5 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 truth tables din+ din - txdis mod+ (2) mod - laser output power (3) l h l h l l h l l l h h x x x h l l table 1. modulation output truth table (1, 3) txdis ben+ ben - bias l h l on l l h off h x x off table 2. bias output truth table notes: 1. assuming ben+ = h and ben - = l. 2. i mod = 0 when mod+ = h. 3. assuming that the cathode of the laser is connected to mod+. los/sd_sel function selected jam output h los l enabled h los h disabled l sd l disabled l sd h enabled table 3. post amp output truth table
micrel, inc. sy88236l/al june 2009 6 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 absolute maximum ratings (1) supply voltage (v in ) ..................................... ? 0.5v to +4.0v cml input voltage (v in ) ................... v cc ? 1.2v to v cc +0.5v ttl control input voltage (v in ) ............................. 0v to v cc lead temperature (soldering, 20sec.) ..................... +260c storage temperature (t s ) ......................... ? 65c to +150c operating ratings (2) supply voltage (v cc ) .................................... +3.0v to +3.6v ambient tem perature (t a ) .......................... ? 40c to +85c package thermal resistance (3) qfn ( ja ) still - air ........................................................ 60c/w ( jb ) ................................................................... 33c/w dc electrical characteristics t a = ? 40c to +85c and v cc = +3.0v to +3.6v, unless otherwise noted. typical values are v cc = +3.3v, t a = 25c, i mod = 3 0ma, i bias = 30ma. symbol parameter condition min typ max units i cc power supply current modulation and bias currents excluded 90 150 (4) ma v il txdis, jam, and los/sd_sel input low - 0.3 0.8 v v ih txdis, jam, and los/sd_sel input high 2 v cc + 0.3 v laser driver v mod_min minimum voltage required at the driver output, mod+ and mod - , for proper operation 0.6 v v bias_min minimum voltage required at the driver output, bias pin, for proper operation 0.8 v i bias bias - on current voltage at bias p in 0.8v 1 70 ma i bias_off bias - off current current at bias pin when txdis is high or ben is low 150 a r in (sy88236l only) input resistance at din+ and din - single ended 42.5 50 57.5 ? ben+, ben - burst mode enable signal single ended 0.8 v v ih (ben) high voltage ben+, ben - 2 v cc + 0.3 v v il (ben) low voltage ben+, ben - - 0.3 0.8 v v ol /apcfault output low i ol = 2ma 0.5 v i oh /apcfault output leakage v oh = v cc 100 a i md current range at md pin 50 1500 a notes: 1. permanent dev ice damage may occur if absolute maximum ratings are exceeded. this is a stress rating only and functional operation is not i mplied at conditions other than those detailed in the operational sections of this data sheet. exposure to absolute maximum ratings conditions for extended periods may affect device reliability. 2. the data sheet limits are not guaranteed if the device is operated beyond the operating ratings. 3. package thermal resistance assumes exposed pad is soldered (or equivalent) to the devices most negative potential on the pcb. jb uses a 4 - layer and ja in still air unless otherwise stated. 4. i cc = 150ma for worst - case conditions with i mod = 85ma, i bias = 70ma, t a = +85c, v cc = 3.6v.
micrel, inc. sy88236l/al june 2009 7 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 post amplifier symbol parameter condition min typ max units los lvl los lvl voltage v cc - 1.3 v cc v v oh rout+, rout - high voltage v cc - 0.020 v cc - 0.005 v cc v v ol rout+, rout - low voltage v cc - 0.475 v cc - 0.400 v cc - 0.350 v v offset differential output offset 80 mv z 0 (rout) single - ended output impedance 42.5 50 57.5 ? z i (rin) (sy88236l only) single - ended input impedance 42.5 50 57.5 ? v ol (los/sd) los/sd output low i ol = 2ma 0.5 v i oh (los/sd) los/sd output leakage v oh = v cc 100 a
micrel, inc. sy88236l/al june 2009 8 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 ac electrical characteristics t a = ? 40c to +85c and v cc = +3.0v to +3.6v , unless otherwise noted. typical values are v cc = +3.3v, t a = 25c, i mod = 30ma, i bias = 30ma. symbol parameter condition min typ max units laser driver data rate nrz 0.155 2.5 gbps v diff - in (din) differential input voltage swing 100 2400 mv pp v in (ben+/ben - ) input voltage swing, single ended ben+, ben - 100 mv v diff - in (ben+/ben - ) differential input voltage swing ben+, ben - 200 mv pp i mod modulation current (5) ac - coupled 10 85 ma dc- coupled, voltage at mod pin 0.6v 10 70 (6) ma i mod_off modulation off current current at mod+ when txdis is high or ben+ is low 150 a current at mod - when txdis is high or ben+ is low 150 a t r output current rise time 20% to 80%, i mod = 60 ma 60 85 ps t f output current fall time 20% to 80%, i mod = 60ma 60 85 ps jitter total jitter (7) 155mbps data rate 30 ps pp 622mbps data rate 30 ps pp 1.25gbps data rate 30 ps pp 2.5gbps data rate 30 ps pp t init apc loop initialization tim e power up with txdis low and ben+ high 12 s txdis changes from high to low with power on and ben+ high 10 s ben changes from low to high with power on and txdis low 2.5 ns burst enable delay (8, 9) 2.5 ns burst disable delay (8,10) 2 ns burst on - time 155mbps 1.9 s 622mbps 720 ns 1.25gbps 576 ns 2.5gbps 576 ns burst off - time 155mbps 1.9 s 622mbps 720 ns 1.25gbps 576 ns 2.5gbps 576 ns notes: 5. load = 15 ?. 6. assuming v cc = 3.0v, laser bandg ap voltage = 1v, laser package inductance = 1nh, laser equivalent series resistor = 5 ?, and damping resistor = 10?. 7. total jitter is measured using 2 7 ? 1 prbs pattern. 8. measured with a laser equivalent resistive load. 9. burst enable delay is measured as the t ime between the instant when the ben+ signal going from low to high reaches 50% of its amplitude and the instant at which the modulation current or the bias current (whichever takes longer) reaches 90% of its final value. 10. burst disable delay is measured as the time between the instant when the ben+ signal going from high to low reaches 50% of its amplitude and the instant at which the modulation current or the bias current (whichever takes longer) goes below 10% of its final value.
micrel, inc. sy88236l/al june 2009 9 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 post amplifier symbol pa rameter condition min typ max units t r , t f output rise/fall time (20% to 80%) note 11 60 120 ps t jitter deterministic random note 12 note 13 15 5 ps pp ps rms v diff_in (rin) differential input voltage swing 5 1800 mv pp v diff_out (rout) differential output voltage swing note 11 700 800 950 mv pp g rssi rssi gain = i rssi / v diff_in (rin) 5mv pp v diff_in (rin) 200mv pp 5 a/ mv pp rssi linearity 5mv pp v diff_in (rin) 200mv pp 2.5 % los al low los assert level r loslvl = 15k ? 2 8 mv pp los dl low los de - assert level r loslvl = 15k ? 10 20 mv pp hsy l low los hysteresis r loslvl = 15k ?, note 14 1.5 2.6 6 db los am medium los assert level r loslvl = 5k ? 4 12 mv pp los dm medium los de - assert level r loslvl = 5k ? 16 30 mv pp hsy m medium los hysteresis r loslvl = 5k ?, note 14 1.5 2.8 6 db los ah high los assert level r loslvl = 100 ? 15 25 mv pp lo s dh high los de - assert level r loslvl = 100 ? 36 50 mv pp hsy h high los hysteresis r loslvl = 100 ? 1.5 3.2 6 db t off los release time note 15 2 10 s t on los assert time note 15 2 10 s b - 3db 3db bandwidth 2.0 ghz a v(diff) differential voltage gai n 38 db s 21 single - ended small - signal gain 26 32 db notes: 11. amplifier in limiting mode. input is a 200mhz square wave. 12. deterministic jitter measured using 2.5gbps k28.5 pattern, v id = 10mv pp . 13. random jitter measured using 2.5gbps k28.7 pattern, v id = 10mv pp . 14. this specification defines electrical hysteresis as 20log (los de - assert/los assert). the ratio between optical hysteresis and electrical hysteresis is found to vary between 1.5 and 2 depending upon the level of received optical power and rosa char acteristics. based on that ratio, the optical hysteresis corresponding to the electrical hysteresis range 1db - 4.5 db, shown in the ac characteristics table, will be 0.5db - 3db optical hysteresis. 15. in real world applications, the los release/assert time can b e strongly influenced by the rc time constant of the ac - coupling cap and the 50 ? input termination. to keep this time low, use a decoupling cap with the lowest value that is allowed by the data rate and the number of consecutive identical bits in the application (typical values are in the range of 0.001 f to 1.0 f).
micrel, inc. sy88236l/al june 2009 10 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 typical charact eristics laser driver i bias vs. i biasmaxset 0 10 20 30 40 50 60 70 80 90 100 0 50 100 150 200 250 300 350 400 450 500 i biasmaxset ( a) i bias vs. r biasmaxset 0 10 20 30 40 50 60 70 80 90 100 0 10 20 30 40 50 r biasmaxset (k? ) i biasmon gain 0.00 0.01 0.02 0.03 0.04 0.05 0 10 20 30 40 50 60 70 80 90 100 i bias (ma) i biasmon /i bias (ma) modulation gain 0 10 20 30 40 50 60 70 80 90 100 0 50 100 150 200 250 300 350 400 i m odset (a) i mod (ma) i mod vs. r modset 0 10 20 30 40 50 60 70 80 90 100 0 5 10 15 20 25 30 r modset (k? ) post amplifier i rssi vs. rin 0 200 400 600 800 1000 1200 1400 0 50 100 150 200 v diff_in (mv pp ) losa and losd vs. r loslvl 1 10 100 100 1000 10000 100000 r loslvl ( ? )
micrel, inc. sy88236l/al june 2009 11 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 functional characteristics laser driver
micrel, inc. sy88236l/al june 2009 12 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690
micrel, inc. sy88236l/al june 2009 13 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 func tional characteristics (continued) post amplifier
micrel, inc. sy88236l/al june 2009 14 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 functional diagram the sy88236l is shown. for the sy88236al, 50 ? terminations should be removed from din and rin.
micrel, inc. sy88236l/al june 2009 15 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 functional description laser driver the laser driver is comprised from a modulator, a bias circuit, and a digital apc loop. the driver features bias and modulation current monitoring functions, which can be configured for optical power monitoring. bias and modulation setting bias and modulation currents are set by installing resistors from apcset to ground and from modset to ground respectively or by applying a negative current at those pins. i bias var iation versus r biasmaxset resistor and i biasmaxset , and i mod variation versus r modset resistor and i modset are shown on page 10. biasmax a resistor between biasmax pin and ground sets the maximum bias the driver can sink. at normal operation, the bias c urrent tracks the laser optical power through the laser monitoring photodiode and the apc loop to compensate for any power deviation from the nominal value set at the start of operation using apcset. if for any failure (laser or photodiode degradation, ope n feedback circuit, etc.) the apc loop keeps increasing the bias current to compensate for the low power indication, the bias current will stop increasing when it reaches biasmax value and continues to operate at that maximum value and apcfault is asserted . biasmax also sets the bias current when the circuit is operating in the open loop mode. apc loop function at start up, with the driver enabled, txdis low and ben+ high, the laser turns on within a few microseconds and its back facet monitoring photodiode starts to generate a photocurrent proportional to the optical power. the photocurrent is fed back to the md pin on the driver where it?s converted to a voltage. the conversion voltage is compared to apcset on the driver. at equilibrium, the feedback volta ge equals the apcset voltage and the laser optical power reaches its nominal value. if the laser power deviates from its nominal value, the apc loop brings it back to its nominal setting. apc loop failure the apcfault is asserted low if the bias current r eaches biasmax or if the apc loop counter reaches its minimum or its maximum counts. interfacing the driver with the laser diode as shown on the ?typical application? drawi ng, mod+ pin is connected to the laser cathode through a 10 ? resistor and mod - pin is connected to vcc with a 15 ? resistor equivalent to 10 ? (damping resistor) in series with the laser (equivalent resistor of 5 ?). the laser can be driven differentially by connecting mod - to the anode of the laser through 15 ? (15? pull - up removed) and isolating the anode of the laser from vcc with an inductor. post amplifier the post amplifier detects and amplifies signals with data rates from dc up to 3.2gbps, and amplitude as small as 5mv pp . to reduce the noise at the output of the post amplifier when the input signal is absent or lower than the minimum detectable level set by los lvl , a jam pin is provided, which can be connected to los/sd output to turn off the output buff er when loss/sd is asserted. input amplifier/buffer figure 1 - d shows a simplified schematic of the input stage. the high - sensitivity of the input amplifier allows signals as small as 5mv pp to be detected and amplified. the input amplifier allows input sig nals as large as 1800mv pp . small input signals below typically 12mv pp are linearly amplified with a typically 38db differential voltage gain. for input signals larger than 12mv pp , the output signal is limited to typically 800mv pp . output buffer the post am plifier cml output buffer is designed to drive 50 ? lines and is internally terminated with 50? to v cc . figure 1e shows a simplified schematic of the output stage. loss - of - signal the post amplifier generates a selectable chatter - free loss - of - signal (los) or signal detect (sd) open - collector ttl output as shown in figure 2g. los/sd is used to determine that the input amplitude is too small to be considered as a valid input. when the loss function is selected (los/sd_sel=1), los/sd asserts high if the input am plitude falls below the threshold set by loslvl and de - asserts low otherwise. if sd function is selected (los/sd_sel=0), los/sd asserts low if the input amplitude falls below the threshold set by loslvl and de- asserts high otherwise. los/sd can be fed back to the jam input to maintain output stability under a loss of signal condition. jam de - asserts low the true output signal without removing the input signals. typically, 3db los hysteresis is provided to prevent chattering. loss/signal detect selection a p in (los/sd_sel) is provided to select between los (set to high) or sd (set to low) function. it also controls the internal circuitry of jam input to follow los/sd selection.
micrel, inc. sy88236l/al june 2009 16 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 loss - of - signal - level set a programmable los/sd level set pin (los lvl ) sets the th reshold of the input amplitude detection. connecting an external resistor between v cc and los lvl sets the voltage at los lvl . this voltage ranges from v cc to v cc - 1.3v. the external resistor creates a voltage divider between v cc and v cc - 1.3v, as shown in f igure 2f. hysteresis the post amplifier provides typically 3db los electrical hysteresis, which is defined as 20log (vin los - assert / vin los -de -assert ). since the relationship between the voltage out of the rosa to optical power at its input is linear, the optical hysteresis will be typically half of the electrical hysteresis reported in the datasheet, but in practice, the ratio between electrical and optical hysteresis is found to be within the range 1.5 to 1.8. thus, 3db electrical hysteresis will correspo nd to an optical hysteresis within the range 1.6db to 2db. rssi pin the post amplifier has an rssi (received signal strength) pin, which provides a current proportional to the amplitude of the signal at the input of the post amplifier from the rosa. insta ll a resistor between this pin and gnd to convert the current into a monitoring voltage proportional to the amplitude of the signal at the input of the post amplifier. the value of the resistor should be selected to keep the voltage at the rssi pin under i ts limits of 1.2v to maintain rssi linearity.
micrel, inc. sy88236l/al june 2009 17 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 input and output stages (sy88236l) (1) figure 1a. simplified driver input stage (1) figure 1b. simplified ben input stage figure 1c. simplified driver output stage figure 1d. post amplif ier input stage (1) figure 1e. post amplifier output stage note: 1. applies for sy88236l only. for sy88236al input terminations need to be removed.
micrel, inc. sy88236l/al june 2009 18 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 interfacing din and ben inputs to different logic drivers (sy88236l) (1) figure 2a. driving din and ben with pecl outputs (1) figure 2b. driving din and ben with cml outputs (1) figure 2c. driving ben with lvttl/cmos outputs (1) figure 2d. driving ben with lvds outputs (1) figure 2e. driving ben with single - ended lvttl/cmos figure 2f. los lvl setting circuit figure 2g. los output structure note: 1. applies for sy88236l only. for sy88236al input terminations need to be added.
micrel, inc. sy88236l/al june 2009 19 m9999 - 063009-a hbwhelp@micrel.com or (408) 955 - 1690 package information 32- pin (5mm x 5mm) qfn micrel, inc. 2180 fortune drive san jose, ca 95131 usa tel +1 (408) 944 - 0800 fax +1 (408) 474 - 1000 web http://www.micrel.com the information furnished by micrel in this data sheet is believed to be accurate and reliable. however, no responsibility is assumed by micrel for i ts use. micrel reserves the right to change circuitry and specifications at any time without notification to the customer. micrel products are not designed or authorized for use as components in life support appliances, devices or systems where mal functio n of a product can reasonably be expected to result in personal injury. life support devices or systems are devices or systems that (a) are intended for surgical implant into the body or (b) support or sustain life, and whose failure to perform can be reasonably expected to result in a significant i njury to the user. a purchaser?s use or sale of micrel products for use in life support appliances, devices or systems is a purcha ser?s own risk and purchaser agrees to fully indemnify micrel for any damages resulting from such use or sale. ? 2009 micrel, incorporated.

▲Up To Search▲

Price & Availability of SY88236ALMGTR

	To Download SY88236ALMGTR Datasheet File
If you can't view the Datasheet, Please click here to try to view without PDF Reader .