GP1F31T/R, GP1F32T/R, GP1F33TT/RR/RT, GP1C331/331A/332/333/334/335 GP1F31T/R, GP1F32T/R, GP1F33TT/RR/RT, GP1C331/331A/332/333/334/335 Fiber Optic Transmitting /Receiving Units Features Outline Dimensions Protection cap 14 9.5 (Resin sec.) 0.5 2 2-2.54 6.7 1 2 3 10.53 GP1F31T LED 2 1 Driver IC GP1F31R 1 2 3 3 (3.6) 1.6 8.5 8.2 ) 3.6 ( GP1F31T/GP1F31R 9.5 (Shield case sec.) 1. Low jitter (tj : TYP. 1ns) 2. High speed signal transmission (8Mbps, NRZ signal) 3. Directly connectable to modulation /demoduration IC for digital audio equipment Fiber optic transmitter ... Built-in light emitting diode driving circuit Fiber optic receiver ... Built-in signal processing circuit 4. With two fixing holes for easy mounting on set panel GP1F32T/GP1F32R/GP1F33RR/ GP1F33TT/33RT 5. 2-channel type (GP1F33RR/GP1F33TT/GP1F33RT) * Sharp's optical fiber cables, (GP1C331, GP1C331A, GP1C332, GP1C333, GP1C334, GP1C335) are recommended The model marked with may not be available in the near future. Contact Sharp sales personnel for details before use (Unit : mm) Vin VCC GND 1 Detector IC 3 Amp. VCC GND Vout 1 2 3 OPIC light detector 2 GP1F32T/GP1F32R 2 3.7 9 8 1. CD players 2. BS tuners 3. Digital amplifiers Protection cap 2.5 fixing hole 4 Depth 8.0 9.5 Applications 5 12 2.5 fixing hole 4 9 2.54 2.54 4.6 2 1 2 3 8.5 10.6 12 9.2 GP1F32R GP1F32T LED 2 1 3 Driver IC 4 1.9 6 10.1 16 19 7.6 1 2 3 Vin VCC GND 1 Detector IC 1 2 3 2 Amp. 3 VCC GND Vout OPIC light detector "OPIC"(Optical IC) is a trademark of the SHARP Corporation. An OPIC consists of a light-detecting element and signalprocessing circuit integrated onto a signal chip. Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. Internet Internet address for Electronic Components Group http://www.sharp.co.jp/ecg/ GP1F31T/R, GP1F32T/R, GP1F33TT/RR/RT, GP1C331/331A/332/333/334/335 Outline Dimensions Model Line-ups Internal Constitution Fiber optic transmitter Fiber optic receiver Fiber optic transmitter Fiber optic receiver Fiber optic transmitter (2-channel) Fiber optic receiver (2-channel) Fiber optic transmitter/receiver Fiber optic cable (1m) Fiber optic cable (0.6m) Fiber optic cable (2m) Fiber optic cable (3m) Fiber optic cable (4m) Fiber optic cable (5m) GP1F33TT/GP1F33RR GP1F33RT 8.0 2.5 fixing hole 4 Depth 7.2 *3 Storage temperature Soldering temperature Rating 40 40 MIN. 25 -30 to +70 -30 to +70 Unit N N mm C C 1 2 3 4 5.8 4.6 2.0 4 5 6 18.0 8.5 12.0 27.2 Unit V V mW mA mA C C C C Fiber Optic Cable (GP1C331, GP1C331A, GP1C332, GP1C333, GP1C334, GP1C335) (Ta=25C) P 9.2 30.0 P=2.54 (Lead root dimension) Terminal arrangement GP1F33TT Transmitting portion 0.1F , , 3, 1 4 2 5 6 LED Vin VCC GND 0.1F LED 2 1 3 Drive IC LED ; GaAlAs Drive IC ; silicon GP1F33RR 5 4 6 Drive IC LED ; GaAlAs Drive IC ; silicon Receiving portion Internal equivalent circuit *1 Source current *2 Sink current *3 5 seconds/2 times or less *4 GP1F31T/GP1F32T/GP1F33TT/Transmitting portion of GP1F33RT *5 GP1F31R/GP1F32R/GP1F33RR/Receiving portion of GP1F33RT *6 GP1F31T/GP1F31R *7 GP1F32T/GP1F32R/GP1F33TT, GP1F33RR, GP1F33RT Parameter Symbol Tpf Plug & optical fiber Tension Optical fiber Tf Bending radius R Operating temperature Topr Tstg Storage temperature 6.0 16.0 8.2 11.8 19.0 P P , , 3, 1 4 2 5 6 0.1F 4.7F VCC GND Vout OPIC light detector GP1F33RT 1 2 3 VCC GND Vout 4 5 6 0.1F 4.7F 4 5 6 1 3 2 OPIC light detector Receiving portion Receiver Vin VCC GND 0.1F 4.7F 1 3 2 OPIC light detector Transmitting portion Transmitter LED Drive IC 0.1F 5 4 6 LED ; GaAlAs Drive IC ; silicon Fiber optic cable (GP1C331) L=1000 0.2MAX. 45.5 30.5 9.5 16 4 VIEW A 2/1 4-C2 2.2 Operating temperature *4 *4 *5 *5 *6 *7 2.6 fixing hole 4 1.6 1.9 P (Ta=25C) Symbol Rating -0.5 to +7 Vcc -0.5 to VCC+0.5 Vin 125 P IOH 4 IOL 4 -10 to +60 Topr -20 to +70 -30 to +80 Tstg 260 Tsol 9.0 11 6 4.4 VIEW A 9.3 Parameter Supply voltage Input voltage Power dissipation *1 High level output current *2 Low level output current 5.0 14.0 6.0 9.2 Absolute Maximum Ratings Protection cap 2.0 3.7 9.0 1.62 Model No. GP1F31T GP1F31R GP1F32T GP1F32R GP1F33TT GP1F33RR GP1F33RT GP1C331 GP1C331A GP1C332 GP1C333 GP1C334 GP1C335 2-C1.25 2.6 2-C1.1 Model No. Dimensions 1 000 GP1C331 600 GP1C331A GP1C332 2 000 GP1C333 3 000 GP1C334 4 000 5 000 GP1C335 GP1F31T/R, GP1F32T/R, GP1F33TT/RR/RT, GP1C331/331A/332/333/334/335 Electro-optical Characteristics(1) Transmitter GP1F31T/GP1F32T/GP1F33TT/Transmitting portion of GP1F33RT Parameter Operating voltage Peak emission wavelength Optical power output coupling with fiber Dissipation current High level input voltage Low level input voltage Low High propagation delay time High Low propagation delay time Pulse width distortion Jitter Operating transfer rate Symbol VCC p PC Icc ViH ViL tpLH tpHL tw tj T MIN. 4.75 630 -21 - 2 - - - -25(-30)** Conditions - - Refer to Fig.1 Refer to Fig.2 Refer to Fig.2 Refer to Fig.2 Refer to Fig.3 Refer to Fig.3 Refer to Fig.3 Refer to Fig.4 - - - (Ta=25C) TYP. 5.00 660 -17 4 - - - - - 1 - MAX. 5.25 690 -15 10 - 0.8 100 100 +25(+30)** 25(30)** 8 TYP. 5.00 700 - - MAX. 5.25 - - -24 15 3.5 0.2 12 4 - - - 1 - - 40 - 0.4 30 30 100 100 +30 30 30 8 Unit V nm dBm mA V V ns ns ns ns Mbps ** Value in parenthesis : GP1F31T Electro-optical Characteristics(2) Receiver GP1F31R/GP1F32R/GP1F33RR/Receiving portion of GP1F33RT Parameter Operating voltage Peak sensitivity wavelength Maximum input optical power level for receiving unit Minimum input optical power level for receiving unit Dissipation current High level output voltage Low level output voltage Rise time Fall time Low High propagation delay time High Low propagation delay time Pulse width distortion Symbol VCC p PCMAX PCMIN Icc VOH VOL tr tf tpLH tpHL tw Jitter tj Operating transfer rate T Conditions - - Refer to Fig.5 Refer to Fig.5 Refer to Fig.6 Refer to Fig.7 Refer to Fig.7 Refer to Fig.7 Refer to Fig.7 Refer to Fig.7 Refer to Fig.7 Refer to Fig.7 Refer to Fig.8, PC=-15dBm Refer to Fig.8, PC=-24dBm NRZ. duty 50% input Electro-optical Characteristics(3) Fiber Optic Cable Parameter Optical output coupling fiber Refracting ratio distribution Symbol PC - MIN. -17 TYP. - Step index MAX. - Unit dBm - MIN. 4.75 - -14.5 - - 2.7 - - - - - -30 - - 0.1 (Ta=25C) Unit V nm dBm dBm mA V V ns ns ns ns ns ns ns Mbps GP1F31T/R, GP1F32T/R, GP1F33TT/RR/RT, GP1C331/331A/332/333/334/335 Mechanical Characteristics Parameter Insertion force, withdrawal force Symbol Conditions In compliance with EIAJ RC-5720 Initial value when a square connector in used. - MIN. TYP. MAX. Unit 6 - 40 N Fig.1 Measuring Method of Optical Output Coupling With Fiber Standard optical fiber cable GP1F31T/GP1F32T/ GP1F33TT Optical power meter (Anritsu)ML93B Unit to be measured Vin VCC GND VCC D The optical power meter must be calibrated to have the wavelength sensitivity of 660nm. (0dBm=1mW) Notes (1) VCC=5.00.05V(Operating) (2) To bundle up the standard fiber cable, make it into a loop with the diameter (D) of 10cm or more. Fig.2 Input Voltage/Power Dissipation Measuring method Standard fiber cable GP1F31T/GP1F32T/ GP1F33TT/GP1F33RT Sample Vin VCC GND Light power meter should be corrected to wavelength sensitivity (660nm) (0dBm=1mW) ICC Vin Light power meter (Anritsu) ML93B VCC Input condition and measuring method Input condition Measuring method Vin=2.0V or more -21<=PC<=-15dBm, ICC=10mA or less Vin=0.8V or less PC<=-36dBm, ICC=10mA or less Note (1) VCC=5.00.05V (ON-State) GP1F31T/R, GP1F32T/R, GP1F33TT/RR/RT, GP1C331/331A/332/333/334/335 Fig.3 Pulse Response Measuring Method Standard optical fiber cable GP1F31T/GP1F32T/ GP1F33TT/GP1F33RT Unit to be measured Vin VCC Standard receiver GND Output signal VCC Oscilloscope Input CH1 Input signal 6Mbps NRZ "1010" successive pattern GP1F31T/GP1F32T GP1F33TT/GP1F33RT Input signal (CH1) Standard receiver Output signal (CH2) CH2 50% Notes (1) VCC=5.00.05V (Operating) (2) The probe for the oscilloscope must be more than 1M and less than 10pF. 50% tPLH tPHL Pulse width distortion tw=tPHL-tPLH Fig.4 Measuring Method of Jitter Standard optical fiber cable GP1F31T/GP1F32T/ GP1F33TT/GP1F33RT Unit to be measured Vin VCC Standard receiver GND Output signal VCC Input Input signal 3Mbps biphase mark PRBS signal 1 1 0 0 CH1 CH2 Input signal Oscilloscope Trigger : CH1 Storage mode 50% Standard receiver output 50% tj tj Notes (1) The waveform write time shall be 4 seconds. But do not allow the waveform to be distorted by increasing the brightness too much. (2) VCC=5.00.05V (Operating) (3) The probe for the oscilloscope must be more than 1M and less than 10pF. GP1F31T/R, GP1F32T/R, GP1F33TT/RR/RT, GP1C331/331A/332/333/334/335 Fig.5 Muximum Input Optical Power Level/Minimum Input Optical Power Level Measuring Method of Receiving Unit GP1F31R/GP1F32R GP1F33RR/GP1F33RT Unit to be measured Variable optical attenuator Standard transmitter Notes (1) Optical power meter must be calibrated to have the wavelength sensitivity of 660nm. (2) With no optical attenuator connected, use the transmitter GP1F31T/GP1F32T/GP1F33TT and the fiber optic cable GP1C331 with the fiber coupling light output set at -15dBm/-24dBm. Optical power meter Anritsu : ML93B Fig.6 Measuring Method of Dissipation Current Standard optical fiber cable GP1F31R/GP1F32R GP1F33RR/GP1F33RT Unit to be measured Standard transmitter Vin VCC GND VCC VCC VCC=5.00.05V PC=-15dBm GND VCC Vout A Input Ammeter 6Mbps NRZ, duty 50% or 3Mbps biphase PRBS signal (DC average current value) Fig.7 Measuring Method of Output Voltage and Pulse Standard optical fiber cable GP1F31R/GP1F32R/ GP1F33RR/GP1F33RT Unit to be measured GND Vout Vcc Rso VCC Standard transmitter Vin VCC GND 5V Rsi Input CH1 Oscilloscope CH2 6Mbps NRZ, duty 50% Standard transmitter Input signal (CH1) 50% tr GP1F31R/GP1F32R GP1F33RR/GP1F33RT Output signal (CH2) tf VOH 90% 50% 10% VOL tPLH tPHL Notes (1) VCC : 5.00.05V (Operating) (2) The probe for the oscilloscope must be more than 1M and less than 10pF. (3) Rsi, Rso ; Standard load resistrance (Rsi : 3.3k, Rso : 2.2k) GP1F31T/R, GP1F32T/R, GP1F33TT/RR/RT, GP1C331/331A/332/333/334/335 Fig.8 Measuring Method of Jitter Standard optical fiber cable GP1F31R/GP1F32R/ GP1F33RR/GP1F33RT Unit to be measured VCC GND Vout VCC Rso GP1F31T/GP1F32T/ GP1F33TT Transmitter Vin VCC GND 5V Rsi Input CH1 Input signal 3Mbps biphase PRBS 1 1 0 CH2 0 Input signal 50% GP1F31R output GP1F32R output GP1F33RR output GP1F33RT output 50% tj Oscilloscope Trigger : CH1 Storage mode Sweep : AUTO/NORM Notes (1) Rsi Rso : Strandard load resistance (Rsi : 3.3 Rso : 2.2k) (2) VCC=5.00.05V (Operating) (3) Set the oscilloscope to be storage mode and write time to 3 seconds. Do not allow the waveform to be distorted by icreasing the brightness too much. (4) The probe for oscilloscope must be more than 1M and less than 10pF. tj Fig.9 Measuring Method of Optical Output Coupling With Fiber Standard optical fiber cable Standard transmitter Standard light transmitter : Light transmitter that provides the fiber-end optical output of -15dBm0.3dBm when the standard fiber optic cable is connected. Optical power meter Anritsu ML93B GP1F31T/R, GP1F32T/R, GP1F33TT/RR/RT, GP1C331/331A/332/333/334/335 Fig.10 System Configuration Example CD/DAT/BS Tuner PCM signal Digital Amp. PCM Demodulation signal IC (LZ92F39) Modulation IC (LZ92F39) Drive circuit Light emitter Fiber optic transmitter GP1F31T/ GP1F32T Signal processing circuit Fiber optic recelver Fiber optic cable GP1C331 BS tuner Digital Amp. PCM Fiber optic cable Modulation IC (LZ92F39) signal Light detector Light emitter Drive circuit Demodulation IC (LZ92F39) GP1C331 Drive circuit Fiber optic transmitter GP1F33TT GP1F31R/GP1F32R Light emitter Light detector PCM Modulation IC (LZ92F39) signal Fiber optic cable Signal processing circuit Signal processing circuit Fiber optic receiver GP1F32R GP1F32R Demodulation IC (LZ92F39) GP1C331 LZ92F39 is Sharp's modulation/demodulation IC. In addition, you can also choose the following system configuration according to your application. GP1F33TT GP1F33RT Precautions for Use Please refer to the chapter "Precautions for Use" GP1C331 GP1C331 GP1F33RR GP1F33RT PCM signal PCM signal Application Circuits NOTICE The circuit application examples in this publication are provided to explain representative applications of SHARP devices and are not intended to guarantee any circuit design or license any intellectual property rights. SHARP takes no responsibility for any problems related to any intellectual property right of a third party resulting from the use of SHARP's devices. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. SHARP reserves the right to make changes in the specifications, characteristics, data, materials, structure, and other contents described herein at any time without notice in order to improve design or reliability. Manufacturing locations are also subject to change without notice. Observe the following points when using any devices in this publication. SHARP takes no responsibility for damage caused by improper use of the devices which does not meet the conditions and absolute maximum ratings to be used specified in the relevant specification sheet nor meet the following conditions: (i) The devices in this publication are designed for use in general electronic equipment designs such as: --- Personal computers --- Office automation equipment --- Telecommunication equipment [terminal] --- Test and measurement equipment --- Industrial control --- Audio visual equipment --- Consumer electronics (ii)Measures such as fail-safe function and redundant design should be taken to ensure reliability and safety when SHARP devices are used for or in connection with equipment that requires higher reliability such as: --- Transportation control and safety equipment (i.e., aircraft, trains, automobiles, etc.) --- Traffic signals --- Gas leakage sensor breakers --- Alarm equipment --- Various safety devices, etc. (iii)SHARP devices shall not be used for or in connection with equipment that requires an extremely high level of reliability and safety such as: --- Space applications --- Telecommunication equipment [trunk lines] --- Nuclear power control equipment --- Medical and other life support equipment (e.g., scuba). Contact a SHARP representative in advance when intending to use SHARP devices for any "specific" applications other than those recommended by SHARP or when it is unclear which category mentioned above controls the intended use. If the SHARP devices listed in this publication fall within the scope of strategic products described in the Foreign Exchange and Foreign Trade Control Law of Japan, it is necessary to obtain approval to export such SHARP devices. This publication is the proprietary product of SHARP and is copyrighted, with all rights reserved. Under the copyright laws, no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, for any purpose, in whole or in part, without the express written permission of SHARP. Express written permission is also required before any use of this publication may be made by a third party. Contact and consult with a SHARP representative if there are any questions about the contents of this publication. 115