HFBR-2412TCZ Avago Technologies US Inc., HFBR-2412TCZ Datasheet - Page 17
HFBR-2412TCZ
Manufacturer Part Number
HFBR-2412TCZ
Description
RECEIVER FIBER OPTIC 5MBD TTL ST
Manufacturer
Avago Technologies US Inc.
Datasheet
1.HFBR-4401Z.pdf
(25 pages)
Specifications of HFBR-2412TCZ
Data Rate
5MBd
Voltage - Supply
4.75 V ~ 5.25 V
Power - Minimum Receivable
-25.4dBm
Current - Supply
10mA
Function
Optical Receivers for Industrial Application, TTL Output
Product
Receiver
Wavelength
820 nm
Diode Capacitance
55 pF
Operating Supply Voltage
4.75 V to 5.25 V
Maximum Operating Temperature
+ 85 C
Minimum Operating Temperature
- 40 C
Optical Fiber Type
RX
Data Transfer Rate
5MBd
Operating Temperature Classification
Industrial
Peak Wavelength
820nm
Operating Supply Voltage (min)
4.75V
Operating Supply Voltage (typ)
5V
Operating Supply Voltage (max)
5.25V
Operating Temp Range
-40C to 85C
Mounting
Through Hole
Pin Count
8
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Applications
-
Lead Free Status / Rohs Status
Compliant
For Use With
Multimode Glass, Hard Clad Silica
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Other names
516-2054
HFBR-14x4Z Output Power Measured out of 1 Meter of Cable
HFBR-14x5Z Output Power Measured out of 1 Meter of Cable
14x2Z/14x4Z/14x5Z Dynamic Characteristics
Notes:
1. For I
2. Typical data at T
3. Thermal resistance is measured with the transmitter coupled to a connector assembly and mounted on a printed circuit board.
4. D is measured at the plane of the fiber face and defines a diameter where the optical power density is within 10 dB of the maximum.
5. P
6. When changing mW to dBm, the optical power is referenced to 1 mW (1000 mW). Optical Power P (dBm) = 10 log P (mW)/1000 mW.
7. Pre-bias is recommended if signal rate >10 MBd, see recommended drive circuit in Figure 11.
8. Pins 2, 6 and 7 are welded to the anode header connection to minimize the thermal resistance from junction to ambient. To further reduce
9. Fiber NA is measured at the end of 2 meters of mode stripped fiber, using the far-field pattern. NA is defined as the sine of the half angle,
17
Parameter
50/125 μm Fiber Cable
NA = 0.2
62.5/125 μm Fiber Cable
NA = 0.275
100/140 μm Fiber Cable
NA = 0.3
200 μm HCS Fiber Cable
NA = 0.37
Parameter
200μm Fiber Cable
NA = 0.37
62.5/125μm Fiber Cable
NA = 0.275
50/125μm Fiber Cable
NA = 0.2
Parameter
Rise Time, Fall Time
(10% to 90%)
Rise Time, Fall Time
(10% to 90%)
Pulse Width Distortion
83522/13) for HFBR-1412Z/1414Z, and with an SMA 905 precision ceramic ferrule for HFBR-1402Z/1404Z.
the thermal resistance, the anode trace should be made as large as is consistent with good RF circuit design.
determined at 5% of the peak intensity point. When using other manufacturer’s fiber cable, results will vary due to differing NA values and
specification methods.
T
is measured with a large area detector at the end of 1 meter of mode stripped cable, with an ST® precision ceramic ferrule (MILSTD-
FPK
> 100 mA, the time duration should not exceed 2 ns.
A
= +25 °C.
Symbol
PT200
PT62
PT50
Symbol
t
t
PWD
Symbol
P
P
P
P
r
r
, t
, t
T50
T62
T100
T200
f
f
Min
-6.0
-7.0
-12.0
-13.0
-16.5
-17.5
Min
Min
-18.8
-19.8
-17.3
-18.9
-15.0
-16.0
-13.5
-15.1
-11.5
-12.5
-10.0
-11.6
-7.5
-8.5
-6.0
-7.6
Typ
4.0
3.0
0.5
Typ
-3.6
-10.5
-14.3
2
Typ
-15.8
-13.8
-12.0
-10.0
-8.5
-6.5
-4.5
-2.5
2
Max
6.5
Max
0.0
1.0
-8.0
-7.0
-11.5
-10.5
Max
-13.8
-12.8
-11.4
-10.8
-10.0
-9.0
-7.6
-7.0
-6.5
-5.5
-4.1
-3.5
-2.5
-1.5
-0.1
0.5
Units
nsec
No pre-bias
nsec
nsec
Units
dBm peak
dBm peak
dBm peak
dBm peak
dBm peak
dBm peak
Units
dBm
peak
dBm
peak
dBm
peak
dBm
peak
Conditions
T
I
T
I
T
I
T
I
T
I
T
I
T
I
T
I
Conditions
I
Figure 12
I
F
F
F
F
F
F
F
F
A
A
A
A
A
A
A
A
F
F
Conditions
T
T
T
T
T
T
= 60mA dc
= 100 mA dc
= 60mA dc
= 100 mA dc
= 60mA dc
= 100 mA dc
= 60mA dc
= 100 mA dc
A
A
A
A
A
A
= 60 mA
= 10 to 100 mA
= +25 °C,
= +25 °C,
= +25 °C,
= +25 °C,
= +25 °C,
= +25 °C,
= +25 °C,
= +25 °C,
= +25°C, I
= -40°C to 85°C, I
= +25°C, I
= -40°C to 85°C, I
= +25°C, I
= -40°C to 85°C, I
F
F
F
= 60mA
= 60mA
= 60mA
Reference
Notes 5, 6, 9
F
F
F
= 60mA
= 60mA
= 60mA
Reference
Note 7
Note 7,
Figure 11
Figure 11
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