GP1FD210TP GP1FD210TP (unit : mm) low voltage operation and thin type optical mini-jack for digital audio equipment 1. md players 2. portable cd players applications *1 for 10s (according to reflow profile in the specification sheet) parameter symbol rating unit supply voltage v cc input voltage v in v v operating temperature t opr ? 10 to + 70 c storage temperature t stg ? 30 to + 80 ? 0.5 to + 7.0 ? 0.5 to v cc + 0.5 c *1 soldering temperature (reflow) t sol 240 c (t a = 25 c) absolute maximum ratings outline dimensions features 1. compact (adoption of compact jack for mini plug) jis c6560 2. optical digital signal and electric analog signal can be discriminated and transmitted 3. high speed data transmission signal transmission speed:max.8mb/s (nrz signal) 4. low voltage operation operating voltage:2.3 to 2.8v *2 for 1minute parameter symbol rating unit total power dissipation p tot ? operating temperature t opr ? 20 to + 70 c storage temperature t stg ? 30 to + 80 d.c. 12v, 1a c *1 soldering temperature (reflow) t sol 240 c (t a = 25 c) *2 isolation voltage v iso (rms) a.c. 500v ? absolute maximum ratings (jack) 3 1 2 4 5 7 8 9 gnd 10 nc (internal connection terminal) v in v cc jack terminal configuration internal equivalent circuit led led:gaal as drive ic:silicone ? when pattern and circuit make contact with portion, it may cause short-circuited to each terminal ? unspecified tolerance : 0.3mm ? ( ) : reference dimensions 8 7 9 drive ic * "opic" (optical ic) is a trademark of the sharp corporation. an opic consists of a light-detecting element and signal-processing circuit integrated onto a single chip. 6.9 7.5 3.65 4.2 2.3 2.1 3.6 0.05 3.4 3.85 3.2 1.8 4.5 14.425 (lead root) 5.4 2 3.85 3.4 2.85 0.7 22 3.2 2 5.4 5.3 11.3 6.5 14.425 1.4 2- 1.2 + 0 ? 0.1 2- 1.3 + 0.05 0 3- 0.7 3 1 6 5.3 11.3 2 10 4 5 5 + 0 ? 0.1 2-0.5 + 0.05 ? 0.1 17.5 0.25 + 0.3 ? 0.1 4-1 c0.15 2 (r0.2) 3.75 7.5 1 7.95 0.2 (except for burr) (except for burr) (lead root) (lead root) 22 3-0.4 1.8 4-0.6 4-1.4 1 2 3 4 5 ? ? ? ? ? ? ? jack terminal 6 hole referance size viewing from parts side of pcb (unspecified tolerance shall be 0.05) 7 8 9 10 ? ? ? device terminal device terminal (internal connection terminal) jack body 8 9 7 notice in the absence of confirmation by device specification sheets, sharp takes no responsibility for any defects that may occ ur in equipment using any sharp devices shown in catalogs, data books, etc. contact sharp in order to obtain the latest device specification sheets before usin g any sharp device. internet internet address for electronic components group http://sharp-world.com/ecg/
parameter symbol conditions p p c v ih t plh t phl ? t w unit max. typ. min. 630 ? 21 ? ? ? ? 15 180 ? ? refer to fig.1 refer to fig.2 refer to fig.2 refer to fig.2 refer to fig.3 refer to fig.3 660 ? 17 6 ? ? ? 690 10 0.7 180 (t a = 25 c, v cc = 2.5v) nm dbm ma 1.9 ? ? v v ns ns peak emission wavelength optical power output coupling with fiber i cch high level dissipation current ? refer to fig.2 0.6 1 ma i ccl low level dissipation current high level input voltage v il low level input voltage low high delay time high low delay time pulse width distortion jitter ? t j ? 1 refer to fig.3 refer to fig.3 ? 30 ? + 30 30 ns ns GP1FD210TP electro-optical characteristics parameter symbol unit max. conditions typ. insertion force, withdrawal force contact resistance isolation resistance 35 f p r con r iso *3 *4 d.c.500v, 1minute 30 m ? ? min. 5 ? 100 ? ? ? n m ? note) this jack is designed for applicable to 3.5 compact single head plug (jis c6560) *3 measuring method of insertion force and withdrawal force insertion and withdrawal force shall be measured after inserting and withdrawing 3 times by using jis c6560 standard plug for t est *4 measuring method of contact resistance it measures at 100ma or less and 1 000hz at the condition of inserting jis c6560 standard plug for test in which movable contac t terminal and contact point are described mechanical characteristics parameter min. typ. max. unit operating supply voltage operating transfer rate 2.8 symbol v cc t mb/s v 2.5 ? 8 2.3 ? (t a = 25 c) recommended operating conditions
GP1FD210TP fig.1 measuring method of optical output coupling with fiber note (1) v cc = 2.5v (state of operating) (2) to bundle up the standard fiber optic cable, make it into a loop with the diameter d = 10cm or more (the standard fiber optic cable will be specified elsewhere) v cc gnd v in v cc optical power meter (anritsu ) ml93b d GP1FD210TP unit to be measured standard optical fiber cable the optical power meter must be calibrated to have the wavelength sensitivity of 660nm (0db = 1mw) fig.2 measuring method of intput voltage and supply current optical power meter (anritsu) ml93b v cc v in v in gnd i cc v cc conditions v in = 0.7v or less v in = 1.9v or more standard fiber optic cable GP1FD210TP unit to be measured judgement method ? 21 p c ? 15dbm, i cc = 10ma or less p c ? 36dbm, i cc = 1.0ma or less the optical power meter must be calibrated to have the wavelength sensitivity of 660nm (0db = 1mw) input conditions and judgement method note v cc = 2.5v (state of operating)
GP1FD210TP fig.3 measuring method of pulse response and jitter v in gnd receiver standard signal output ch1 ch2 input 50% 50% input signal standard receiver output v cc v cc standard fiber optic cable t plh t phl ? t jr ? t jf 1 1 0 0 GP1FD210TP unit to be measured oscilloscope input signal 3mb/s biphase mark prbs signal tektronix 7834 or 7934 type trigger;ch1 storage mode parameter symbol t plh t phl ? t w high low delay time low high delay time pulse width distortion low high jitter ? t jr high low jitter ? t jf conditions refer to the above mentioned prescription refer to the above mentioned prescription ? t w = t phl ? t phl set the trigger on the rise of input signal to measure the jitter of the rise of output set the trigger on the fall of input signal to measure the jitter of the fall of output notes (1) the waveform write time shall be 4s. but do not allow the waveform to be distorted by increasing the brightness too muc h (2) v cc = 2.5v (state of operating) (3) the probe for the oscilloscope must be more than 1m ? and less than 10pf
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