GP1FA350TZ/ GP1FA350RZ voltage operation (VCC=2.7 3.6V) consumpti
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GP1FA350TZ/GP1FA350RZ
GP1FA350TZ/ GP1FA350RZ
voltage operation (VCC=2.7 3.6V) consumption current Comforming revised EIAJ standards [(GP1FA350RZ) Input optical power level:MIN. -27dBm] Unidirectional signal transmission plastic optical fiber cables optical receiver directly connected with TTL, OPIC
Fiber Optic Transmitter/Receiver
Outline Dimensions
(Unit
10.1
Protection fixing hole
Absolute Maximum Ratings
Parameter Supply voltage Output current (GP1FA350RZ) Input voltage (GP1FA350TZ) Operating temperature Storage temperature Soldering temperature
times less)
(Ta=25°C)
2.54 Lead root
2.54 Lead root
Symbol Rating Unit -0.5 +7.0 (Source current) (Sink current) -0.5 +0.5 Topr Tstg Tsol
10.6 Internal equivalent circuit
GP1FA350RZ
Amp. Amp. Amp.
Comp output circuit
Amp.
GP1FA350TZ Drive
4±0.5
players STB/BS, tuners Digital audio equipment Personal computers
OPIC light detector
VOUT
LED:GaAlAs Drive IC:Silicon
Example mounting drawing from soldering face (Unspecified tolerance:±0.1mm)
+0.1 2-2.0-0
2.54 2.54
Unspecified tolerance:±0.3mm
3-0.8
"OPIC"(Optical trademark SHARP Corporation. OPIC consists light-detecting element signalprocessing circuit integrated onto single 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://sharp-world.com/ecg/
Applications
GP1FA350TZ/GP1FA350RZ Recommended Operating Conditions (GP1FA350TZ)
Parameter Operating supply voltage Operating transfer rate
signal, duty
Symbol
MIN.
TYP.
MAX.
(Ta=25°C) Unit Mb/s
Recommended Operating Conditions (GP1FA350RZ)
Parameter Operating supply voltage *3*4 Operating transfer rate Input optical power level Symbol MIN. TYP. MAX. -14.5
(Ta=25°C) Unit Mb/s
above operating transfer rate value when signal, "0101." continuous signal duty transmitted output (H/L level) GP1FA350RZ fixed constantly when receivers modulating light (including light, input light) less than 0.1Mb/s Peak emission value
Electro-optical Characteristics (GP1FA350TZ)
Parameter
Peak emission wavelength Optical output coupling with fiber Dissipation current High level input voltage level input voltage LowHigh delay time HighLow delay time Pulse width distortion Jitter
Symbol
Conditions
MIN.
tpLH tpHL
Refer Fig.1 Refer Fig.2 Refer Fig.2 Refer Fig.2 Refer Fig.3 Refer Fig.3 Refer Fig.3 Refer Fig.3
(Ta=25°C, VCC=3V) TYP. MAX. Unit (Ta=25°C, VCC=3V) TYP. MAX. Unit
Electro-optical Characteristics (GP1FA350RZ)
Parameter Symbol Conditions
Peak sensitivity wavelength Dissipation current High level output voltage level output voltage Rise time Fall time LowHigh delay time HighLow delay time Pulse width distortion Jitter
tpLH tpHL
Refer Fig.4 Refer Fig.5 Refer Fig.5 Refer Fig.5 Refer Fig.5 Refer Fig.5 Refer Fig.5 Refer Fig.5 Refer Fig.6, PC=-14.5dBm Refer Fig.6, PC=-27dBm
MIN.
Mechanical Characteristics
Parameter Insertion force, withdrawal force Symbol Conditions Initial value when GP1C331 used MIN. TYP. MAX. Unit
GP1FA350TZ/GP1FA350RZ Fig.1 Measuring Method Optical Output Coupling with Fiber
Standard optical fiber cable GP1FA350TZ Unit measured optical power meter must calibrated have wavelength sensitivity 660nm (0dB=1mW) Optical power meter (Anritsu) ML93B
Note VCC;3.0V (State operating) bundle standard fiber optic cable, make into loop with diameter D=10cm more (The standard fiber optic cable will specified elsewhere.)
Fig.2 Measuring Method Intput Voltage Supply Current
Standard fiber optic cable GP1FA350TZ Unit measured
Optical power meter (Anritsu) ML93B optical power meter must calibrated have wavelength sensitivity 660nm (0dB=1mW)
Input conditions judgement method Conditions VIN=2.1V more VIN=0.8V less Judgement method -21PC-15dBm, ICC=12mA less PC-36dBm, ICC=12mA less
Note VCC=3.0V (State operating)
GP1FA350TZ/GP1FA350RZ Fig.3 Measuring Method Pulse Response Jitter
Standard fiber optic cable GP1FA350TZ Unit measured Input Input signal 3Mb/s biphase mark PRBS signal Oscilloscope Tektronix 7834 7934 type Trigger;CH1 Storage mode Standard receiver Output signal
Input signal tPLH tPHL
Standard receiver output
Parameter
Symbol
Conditions
LowHigh delay time HighLow delay time Pulse width distortion LowHigh jitter HighLow jitter
tpLH tpHL
Refer above mentioned prescription Refer above mentioned prescription tw=tpHL-tpLH trigger rise input signal measure jitter rise output trigger fall input signal measure jitter fall output
Notes waveform write time shall allow waveform distorted increasing brightness much VCC=3.0V (State operating) probe oscilloscope must more than less than 10pF
Fig.4 Supply Current
Supply voltage Fiber coupling light output Standard transmitter input signal Input conditions VCC=3.0V PC=-14.5dBm 6Mb/s NRZ, Duty 3Mb/s biphase mark PRBS signal
Fiber optic cable Standard transmitter meter GP1FA350RZ Unit measured VOUT
Measuring method Measured ammeter average amperage)
Input
GP1FA350TZ/GP1FA350RZ Fig.5 Measuring Method Output Voltage Pulse Response
Fiber optic cable Standard transmitter Input GP1FA350RZ Unit measured VOUT
6Mb/s NRZ, Duty
Tektronix 7834 7934 type Oscilloscope
Test item Test item High pulse delay time High pulse delay time Rise time Fall time Pulse width distortion tw=tpHL-tpLH High level output voltage level output voltage
Notes
Symbol tpLH tpHL
Standard transmitter Input signal (CH1)
GP1FA350RZ Output signal (CH2)
VCC=3.0V (State operating) fiber coupling light output -14.5dBm/-27dBm probe oscilloscope must more than less than 10pF RSI, RSO:Standard load resistance (RSI:3.3k, RSO:2.2k) output (H/L level) GP1FA350RZ fixed constantly when receives modulating light (including light, input light) less than 0.1Mb/s
tpLH
tpHL
GP1FA350TZ/GP1FA350RZ Fig.6 Measuring Method Jitter
Fiber optic cable Standard transmitter GP1FA350RZ Unit measured VOUT
Oscilloscope Input Tektronix 7834 7934 type Trigger:CH1 Storage mode Sweep:AUTO/NORM
Input signal 3Mb/s biphase, PRBS signal
Test item Test item Symbol Jitter Jitter
Test condition trigger rise input signal measure jitter rise output trigger fall input signal measure jitter fall output
Input signal
Notes fiber coupling light output -14.5dBm/-27dBm RSI, RSO:Standard load resistance (RSI:3.3k, RSO:2.2k) waveform write time shall allow waveform distorted increasing brightness much VCC=3.0V (State operating) probe oscilloscope must more than less than 10pF
GP1FA350RZ Output
NOTICE
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. Contact 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. Observe 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).
SHARP devices listed this publication fall within scope strategic products described Foreign Exchange Foreign Trade Japan, necessary obtain approval export such SHARP devices. This 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. Contact consult with SHARP representative there questions about contents this publication.
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