GP1F31T/R, GP1F32T/R, GP1F33TT/RR/RT, GP1C331/331A/332/333/334/335
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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
jitter TYP. 1ns) High speed signal transmission (8Mbps, signal) Directly connectable modulation /demoduration digital audio equipment Fiber optic transmitter Built-in light emitting diode driving circuit Fiber optic receiver Built-in signal processing circuit With fixing holes easy mounting panel GP1F32T/GP1F32R/GP1F33RR/ GP1F33TT/33RT 2-channel type (GP1F33RR/GP1F33TT/GP1F33RT) Sharp's optical fiber cables, (GP1C331, GP1C331A, GP1C332, GP1C333, GP1C334, GP1C335) recommended model marked with available near future. Contact Sharp sales personnel details before
Fiber Optic Transmitting /Receiving Units
Outline Dimensions
GP1F31T/GP1F31R (Resin sec.) Protection
(Unit
(Shield case sec.)
2-2.54
10.53 GP1F31T
GP1F31R
Driver
Detector
Amp.
Vout
OPIC light detector
GP1F32T/GP1F32R
Applications
players tuners Digital amplifiers
fixing hole Depth
Protection 10.1
fixing hole
2.54
2.54
10.6
GP1F32T
GP1F32R
Driver
Detector
Amp.
Vout
OPIC light detector
"OPIC"(Optical trademark SHARP Corporation. OPIC consists light-detecting element signalprocessing circuit integrated onto signal chip.
Notice absence confirmation device specification sheets, SHARP takes responsibility defects that occur equipment using SHARP devices shown catalogs, data books, etc. Contact SHARP order obtain latest device specification sheets before using SHARP device. Internet Internet address Electronic Components Group http://www.sharp.co.jp/ecg/
(3.6)
GP1F31T/R, GP1F32T/R, GP1F33TT/RR/RT, GP1C331/331A/332/333/334/335 Model Line-ups
Model GP1F31T GP1F31R GP1F32T GP1F32R GP1F33TT GP1F33RR GP1F33RT GP1C331 GP1C331A GP1C332 GP1C333 GP1C334 GP1C335 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) (Ta=25°C) Unit
Outline Dimensions
GP1F33TT/GP1F33RR GP1F33RT Protection fixing hole Depth 14.0 11.8 19.0 fixing hole
27.2
12.0
18.0 30.0
Absolute Maximum Ratings
Parameter Supply voltage Input voltage Power dissipation High level output current level output current Operating temperature
Storage temperature Soldering temperature
Symbol Rating -0.5 -0.5 VCC+0.5 Topr Tstg Tsol
P=2.54 (Lead root dimension) Terminal arrangement GP1F33TT
Transmitting portion
0.1µF 0.1µF Drive
Drive
GaAlAs Drive silicon
GaAlAs Drive silicon
GP1F33RR
Receiving portion
Internal equivalent circuit
0.1µF 4.7µF
Source current Sink current seconds/2 times less portion GP1F33RT portion GP1F33RT GP1F31T/GP1F31R GP1F32T/GP1F32R/GP1F33TT, GP1F33RR, GP1F33RT
Vout
0.1µF 4.7µF
OPIC light detector
OPIC light detector
GP1F33RT
Receiving portion
Receiver 0.1µF 4.7µF
Transmitting portion
Transmitter Drive 0.1µF
Fiber Optic Cable (GP1C331, GP1C331A, GP1C332, GP1C333, GP1C334, GP1C335) (Ta=25°C)
Parameter Symbol Plug optical fiber Tension Optical fiber Bending radius Operating temperature Topr Tstg Storage temperature Rating MIN. Unit
Vout
OPIC light detector
GaAlAs Drive silicon
Fiber optic cable (GP1C331) L=1000 0.2MAX. 45.5 30.5
VIEW
VIEW 4-C2
1.62
2-C1.25
2-C1.1
Model gDimensions GP1C331 GP1C331A GP1C332 GP1C333 GP1C334 GP1C335
16.0
GP1F31T/R, GP1F32T/R, GP1F33TT/RR/RT, GP1C331/331A/332/333/334/335 Electro-optical Characteristics(1) Transmitter portion GP1F33RT
Parameter Operating voltage Peak emission wavelength Optical power output coupling with fiber Dissipation current High level input voltage level input voltage High propagation delay time High propagation delay time Pulse width distortion Jitter Operating transfer rate
Value parenthesis GP1F31T
(Ta=25°C) TYP. 5.00 MAX. 5.25 +25(+30)** 25(30)** Unit Mbps
Symbol tpLH tpHL
Conditions Refer Fig.1 Refer Fig.2 Refer Fig.2 Refer Fig.2 Refer Fig.3 Refer Fig.3 Refer Fig.3 Refer Fig.4
MIN. 4.75 -25(-30)**
Electro-optical Characteristics(2) Receiver portion GP1F33RT
Parameter Operating voltage Peak sensitivity wavelength Maximum input optical power level receiving unit Minimum input optical power level receiving unit Dissipation current High level output voltage level output voltage Rise time Fall time High propagation delay time High propagation delay time Pulse width distortion Jitter Operating transfer rate Symbol PCMAX PCMIN tpLH tpHL Conditions Refer Fig.5 Refer Fig.5 Refer Fig.6 Refer Fig.7 Refer Fig.7 Refer Fig.7 Refer Fig.7 Refer Fig.7 Refer Fig.7 Refer Fig.7 Refer Fig.8, PC=-15dBm Refer Fig.8, PC=-24dBm NRZ. duty input MIN. 4.75 -14.5 TYP. 5.00 MAX. 5.25
(Ta=25°C) Unit Mbps
Electro-optical Characteristics(3) Fiber Optic Cable
Parameter Optical output coupling fiber Refracting ratio distribution Symbol MIN. TYP. Step index MAX. Unit
GP1F31T/R, GP1F32T/R, GP1F33TT/RR/RT, GP1C331/331A/332/333/334/335 Mechanical Characteristics
Parameter Insertion force, withdrawal force Symbol Conditions compliance with EIAJ RC-5720 Initial value when square connector used. MIN. TYP. MAX. Unit
Fig.1 Measuring Method Optical Output Coupling With Fiber
Standard optical fiber cable GP1F31T/GP1F32T/ GP1F33TT
Unit measured
Optical power meter (Anritsu)ML93B
optical power meter must calibrated have wavelength sensitivity 660nm. (0dBm=1mW)
Notes VCC=5.0±0.05V(Operating) bundle standard fiber cable, make into loop with diameter 10cm more.
Fig.2 Input Voltage/Power Dissipation Measuring method
Standard fiber cable GP1F31T/GP1F32T/ GP1F33TT/GP1F33RT
Sample
Light power meter (Anritsu) ML93B
Light power meter should corrected wavelength sensitivity (660nm) (0dBm=1mW)
Input condition measuring method
Input condition Vin=2.0V more Vin=0.8V less Measuring method -21<=PC<=-15dBm, ICC=10mA less PC<=-36dBm, ICC=10mA less
Note VCC=5.0±0.05V (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 measured Input Input signal 6Mbps "1010" successive pattern Oscilloscope Standard receiver Output signal
GP1F31T/GP1F32T GP1F33TT/GP1F33RT Input signal (CH1)
Notes VCC=5.0±0.05V (Operating) probe oscilloscope must more than less than 10pF.
Standard receiver Output signal (CH2)
tPLH
tPHL
Pulse width distortion tw=tPHL-tPLH
Fig.4 Measuring Method Jitter
Standard optical fiber cable GP1F31T/GP1F32T/ GP1F33TT/GP1F33RT Unit measured Input Input signal 3Mbps biphase mark PRBS signal Oscilloscope Trigger Storage mode Standard receiver Output signal
Input signal
Notes waveform write time shall seconds. allow waveform distorted increasing brightness much. VCC=5.0±0.05V (Operating) probe oscilloscope must more than less than 10pF.
Standard receiver output
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 Receiving Unit
Standard transmitter
Variable optical attenuator
GP1F31R/GP1F32R GP1F33RR/GP1F33RT Unit measured
Notes Optical power meter must calibrated have wavelength sensitivity 660nm. With optical attenuator connected, transmitter GP1F31T/GP1F32T/GP1F33TT fiber optic cable GP1C331 with fiber coupling light output -15dBm/-24dBm.
Optical power meter Anritsu ML93B
Fig.6 Measuring Method Dissipation Current
Standard optical fiber cable Standard transmitter Input 6Mbps NRZ, duty 3Mbps biphase PRBS signal VCC=5.0±0.05V PC=-15dBm GP1F31R/GP1F32R GP1F33RR/GP1F33RT Unit measured
Vout
Ammeter average current value)
Fig.7 Measuring Method Output Voltage Pulse
Standard optical fiber cable Standard transmitter Input 6Mbps NRZ, duty Oscilloscope GP1F31R/GP1F32R/ GP1F33RR/GP1F33RT Unit measured Vout
Standard transmitter Input signal (CH1) GP1F31R/GP1F32R GP1F33RR/GP1F33RT Output signal (CH2)
tPHL
Notes 5.0±0.05V (Operating) probe oscilloscope must more than less than 10pF. Rsi, Standard load resistrance (Rsi 3.3k, 2.2k)
tPLH
GP1F31T/R, GP1F32T/R, GP1F33TT/RR/RT, GP1C331/331A/332/333/334/335 Fig.8 Measuring Method Jitter
Standard optical fiber cable GP1F31T/GP1F32T/ GP1F33TT Transmitter Input Input signal 3Mbps biphase PRBS Oscilloscope Trigger Storage mode Sweep AUTO/NORM GP1F31R/GP1F32R/ GP1F33RR/GP1F33RT Unit measured Vout
Input signal GP1F31R output GP1F32R output GP1F33RR output GP1F33RT output
Notes Strandard load resistance (Rsi 2.2k) VCC=5.0±0.05V (Operating) oscilloscope storage mode write time seconds. allow waveform distorted icreasing brightness much. probe oscilloscope must more than less than 10pF.
Fig.9 Measuring Method Optical Output Coupling With Fiber
Standard optical fiber cable Standard transmitter Optical power meter Anritsu ML93B
Standard light transmitter Light transmitter that provides fiber-end optical output -15dBm±0.3dBm when standard fiber optic cable connected.
GP1F31T/R, GP1F32T/R, GP1F33TT/RR/RT, GP1C331/331A/332/333/334/335 Fig.10 System Configuration Example
CD/DAT/BS Tuner signal Modulation (LZ92F39) Digital Amp. Demodulation signal (LZ92F39)
Drive circuit Light emitter Fiber optic transmitter GP1F31T/ GP1F32T
Signal processing circuit Fiber optic recelver Fiber optic cable GP1C331 GP1F31R/GP1F32R
tuner Modulation (LZ92F39) signal Drive circuit Fiber optic transmitter GP1F33TT Light emitter Drive circuit Fiber optic cable GP1C331
Digital Amp. Demodulation (LZ92F39) Signal processing circuit
signal
Light detector
Fiber optic receiver GP1F32R GP1F32R signal
Light emitter
Signal processing Light circuit detector
Modulation (LZ92F39) signal
Fiber optic cable GP1C331
Demodulation (LZ92F39)
LZ92F39 Sharp's modulation/demodulation
addition, also choose following system configuration according your application.
GP1F33TT
GP1C331
GP1F33RR
GP1F33RT
GP1C331
GP1F33RT
Precautions
Please refer chapter "Precautions Use"
Application Circuits
NOTICE
qThe circuit application examples this publication provided explain representative applications SHARP devices intended guarantee circuit design license intellectual property rights. SHARP takes responsibility problems related intellectual property right third party resulting from SHARP's devices. qContact SHARP order obtain latest device specification sheets before using SHARP device. SHARP reserves right make changes specifications, characteristics, data, materials, structure, other contents described herein time without notice order improve design reliability. Manufacturing locations also subject change without notice. qObserve following points when using devices this publication. SHARP takes responsibility damage caused improper devices which does meet conditions absolute maximum ratings used specified relevant specification sheet meet following conditions: devices this publication designed general electronic equipment designs such Personal computers Office automation equipment Telecommunication equipment [terminal] Test measurement equipment Industrial control Audio visual equipment Consumer electronics (ii)Measures such fail-safe function redundant design should taken ensure reliability safety when SHARP devices used connection with equipment that requires higher reliability such Transportation control safety equipment (i.e., aircraft, trains, automobiles, etc.) Traffic signals leakage sensor breakers Alarm equipment Various safety devices, etc. (iii)SHARP devices shall used connection with equipment that requires extremely high level reliability safety such Space applications Telecommunication equipment [trunk lines] Nuclear power control equipment Medical other life support equipment (e.g., scuba). qContact SHARP representative advance when intending SHARP devices "specific" applications other than those recommended SHARP when unclear which category mentioned above controls intended use. SHARP devices listed this publication fall within scope strategic products described Foreign Exchange Foreign Trade Control Japan, necessary obtain approval export such SHARP devices. qThis publication proprietary product SHARP copyrighted, with rights reserved. Under copyright laws, part this publication reproduced transmitted form means, electronic mechanical, purpose, whole part, without express written permission SHARP. Express written permission also required before this publication made third party. qContact consult with SHARP representative there questions about contents this publication.
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