HFD3381-102 查看數據表(PDF) - Honeywell International
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HFD3381-102 Datasheet PDF : 4 Pages
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Fiber Optic LAN Components
Connectorized PIN Plus Preamplifier
HFD3381-102
ABSOLUTE MAXIMUM RATINGS
Parameter
Storage Temperature
Case Operating Temperature
Lead Solder Temperature
Power Supply Voltage
Incident Optical Power
Rating
-40 to +85°C
0 to +70°C
260°C, 10 sec.
-0.5 to +3.8 V
0 dBm average, +4 dBm peak
NOTICE
Stresses greater than those listed under
“Absolute Maximum Ratings” may cause
permanent damage to the device. This is
a stress rating only and functional
operation of the device at these or any
other conditions above those indicated in
the operations section for extended
periods of time may affect reliability.
ELECTRO-OPTICAL CHARACTERISTICS (Vcc=3.3V, AC coupled to 50Ω, 0°C<T<70°C unless otherwise specified)
Parameters
Test Condition
Symbol Min.
Typ.
Max.
Units
Notes
Electrical Characteristics
Supply Voltage
Pin = 0µW, Rload=50Ω
Vcc
3.0
3.3
3.6
Volts
1
Supply Current
Pin = 0µW, Rload=50Ω
Icc
26
40
mA
1
Output Offset Voltage
Pin = 0µW, Rload=50Ω
Voffset -100
100
mV
9,10
Output Resistance
Single ended, freq = 0Hz
Ro
40
50
62
Ω
Responsivity
Differential Output
Voltage
Opto-Electronic Characteristics
Pin < AGCth, Rload=50Ω
R
Pin = 200µW, Rload=50Ω,
Vout
90
Voffset = 0 mV
1400
160
µV/µW
2,3,10
400
mV
1
Upper 3dB Bandwidth
BWupper 1700
1900
2500
MHz
4
RMS Output Referred
Pin=0µW, Rload=50Ω
1.5
2.25
mV
5
Noise
1875 MHz BT Filter
Sensitivity
BER=10-12, SNR=7
S
-17
-20
dBm
Power Supply Rejection Pin=0µW, Rload=50Ω
Ratio
PSRR
10
30
dB
6
Pulse Width Distortion Pin=20µW peak, Rload=50Ω PWD
40
ps
7
Rise/Fall Time
Pin=20µW peak, Rload=50Ω TR/TF
250
ps
8
Wavelength Responsivity Pin=20µW peak, Rload=50Ω
λ
760
850
860
nm
AGCth threshold power Voffset = 0mV, Pin = Peak AGCth
60
µW
9,10
power
Notes:
1. Pin refers to the peak optical power at the face of the fiber optic
cable input to the HFD3381-102.
2. Responsivity measured with source wavelength of 850nm, freq =
0Hz, Pin< AGCth, Rload=50Ω, sample tested at 2.5Gbps
3. The output voltage increases as received light power increases,
up to approximately –15dBm depending upon the AGCth. The
preamplifier is designed to limit the electrical output signal above
this optical input level, and does not introduce signal distortion
until the average input power exceeds 0dBm.
4. Bandwidth is measured with a small signal sinusoidal light
source with 50 µW average power, Rload=50Ω.
5. RMS input referred optical noise is sample tested by measuring
the RMS output referred noise, then dividing by the responsivity.
6. PSRR is sample tested from 300KHz to 1GHz by injecting a –
20dB electrical signal on the Vcc pin. The nominal value at
100MHz is recorded. No external bypass components are
assumed. An external Vcc filter network will greatly increase the
PSRR.
7. Sample tested at the 50% level of output pulses.
8. Rise and fall times are sample tested with source wavelength of
850nm, 125MHz square wave, with optical rise and fall times <
200ps, Pin< AGCth, Rload=50Ω. Measured at 20% - 80% signal
levels
9. Output offset voltage is defined as Vout – VoutQ with no light
10. The AGCth power depends on the offset voltage. Refer to fig 3.
NOTICE
The inherent design of this component causes it to be
sensitive to electrostatic discharge (ESD). To prevent ESD-
induced damage and/or degradation to equipment, take normal
ESD precautions when handling this product
2 Honeywell •
For application help: call 1-800-537-6945
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