AGILTRON EDFA-1C0111xxx-30 C-Band 20dBm SM Booster EDFA Mini Module User Manual
- September 16, 2024
- AGILTRON
Table of Contents
EDFA-1C0111xxx-30 C-Band 20dBm SM Booster EDFA Mini Module
Product Information
Specifications
Model: C-Band 20dBm SM Booster EDFA Mini Module
with 30dB Gain
Part Number (P/N): EDFA-1C0111xxx-30
Working Temperature: -5°C to 65°C
Storage Temperature: -40°C to 85°C
Working Humidity: 5% to 85% relative
humidity
Storage Humidity: 5% to 95% relative
humidity
Product Usage Instructions
Ambient Parameters
-
Working Temperature: Maintain the temperature
between -5°C and 65°C. -
Storage Temperature: Store the module in
temperatures ranging from -40°C to 85°C. -
Working Humidity: Operate the module in
environments with humidity levels between 5% and 85%. -
Storage Humidity: Ensure storage humidity is
within the range of 5% to 95% relative humidity.
Optical Parameters
-
Return Loss: Minimum of 45dB, typical of 99dB,
and maximum of 101dB. -
Fiber Types: SMF-28e, 900um white loose tube
for both input and output fibers.
Frequently Asked Questions (FAQ)
Q: What is the operating wavelength of the module?
A: The operating wavelength is between 1528nm
and 1565nm.
Q: What is the input power range for the module?
A: The input power range is from -30dBm to
10dBm.
15 Presidential Way Woburn, MA 01801 Tel: 781-935-1200 Fax: 781-935-2040 www.agiltron.com
A Photonwares Company
C-Band 20dBm SM Booster EDFA Mini Module with 30dB Gain
User Manual
P/N: EDFA-1C0111xxx-30
(Jan, 2022)
1
1 Ambient Parameters
Parameter
Working Temperature
Storage Temperature
Working Humidity
Storage Humidity
Relative Relative
Min. -5 -40 5
5
2 Optical Parameters
Typical
Max. 65 85 85
95
Unit
Note
%
40°C noncondensation
%
Parameter
Return Loss Input & Output Fiber type
Output Fiber Length
Min
Typical Max
45
–
–
SMF-28e, 900um white loose tube
99
100
101
Input Fiber Length
Input & Output Fiber Connector Type Module Dimension Working Mode No Optical
Power Report Output power stability Accuracy of power reporting Gain control
accuracy Output Power control accuracy Input & Output Isolation In & Out Pump
Leakage PDG PMD CD Multipath interference
99
100
101
FC/APC
(WLH)907015
AGC
-60
–
–
±0.1
–
–
±0.5
–
–
±0.5
–
–
±0.5
–
35
–
–
–
-30
–
–
0.5
–
–
0.5
–
–
±5
–
–
-40
Unit
Note
dB
–
cm
100 ± 1cm, without connector
cm
100 ± 1cm, without connector
–
mm
dBm dB dB dB dB dB dBm dB ps ps/nm dB
2
Operating Wavelength Input Power Range
Gain
Max Output Power Input @ Typical NF GF
Input Power Alarm Threshold
Output Power Alarm Threshold
Pump off threshold APC Output power setting range Default temperature alarm
threshold Ports
1528
–
1565 nm
-30
–
10 dBm
Flatness<2.0
The gain adjustable range is
±1.5dB.
27
30
33
dB The accuracy of the normal
temperature gain setting is
0.1dB.
20
dBm
-10
dBm
–
5.5
6
dB @Gain=20dB
–
1
1.5
dB @In=-3dBmG=20dB
-33
-31
Settable range -33 ~ -10 dBm,
Upward hysteresis 1dB, -10 dBm <-33dBm reporting no optical
power
Settable range -8 ~ +20.5,
-8
-6
20.5 dBm Upward hysteresis 1dB,
<-8 reporting no optical power
-33 -33
-5
–
-5
70
–
2
Settable range -33~-5, -10 dBm Upward hysteresis 1dB
20 dBm Setting accuracy is 0.1dB
Settable range -5~+70
70
Upward hysteresis 1
–
– Input & output
3 Electrical Information
3.1 Power Supply:
Parameter
Min
Typical
Max
Unit
Note
Voltage
4.75
5.0
5.25
V
Current
–
–
3.0
A
Power Consumption
–
–
15
W
3.2 Pin Definition
3.2.1 Communication Port Type34Pin 2.00mm intervals male socket CJT A2005WV-N-2x17P
3
3.2.2 Pin definition:
Pin No. Name
Attribute
1
NC
F
2
NC
F
3
+5V
P
4
+5V
P
5
+5V
P
6
+5V
P
7
GND
P
8
GND
P
9
NC
F
10
NC
F
11
GND
P
12
GND
P
13
NC
F
14
NC
F
15
NC
F
16
NC
F
17
NC
F
18
NC
F
19
NC
F
20
NC
F
21
NC
F
22
NC
F
23
GND
P
24
GND
P
25
Serial Port Input
I
26
Serial Port Output
O
27
GND
P
28
GND
P
29
+5V
P
30
+5V
P
31
+5V
P
32
+5V
P
33
NC
F
34
NC
F
- P: Power, I: Input, O: Output, F: None
Level Type
LVTTL LVTTL
4
4 Serial Port Communication Protocol
Parameter
Value
Unit
Baud rate
9600
Bit/s
Data bit
8
Bit
Stop bit
1
Bit
Parity bit
None
5 Module Dimensions
6 Application Notes
· RS232-to-USB converting needs to be done by the user. FTDI chip is
recommended. Benchtop is available at https://agiltron.com/. RS232-to-USB
converting PCB is also available at https://agiltron.com/.
· Upon accomplishing the above, EDFA can be remotely controlled by UART
commands or the EDFA GUI program (EDFA-L option).
· A heat sink is needed for this EDFA, as shown below.
5
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