JDSU ESVOA

AGILE OPTICAL COMPONENTS
Electrostatic MEMS Variable Optical Attenuator
ESVOA Series
Key Features
• Low insertion loss
• Low wavelength dependent loss
• Low polarization dependent loss
• Multiple devices easily packaged into common housing
Applications
• Power equalization in multi-channel,
optically amplified networks
• Gain-tilt control in erbium doped
fiber amplifiers (EDFAs)
• Power control in narrowband
wavelength division multiplexers
(WDMs) and configurable networks
• Photoreceiver trimming
• Receiver protection/switch during
transmitter turn-ons
Compliance
• Telcordia 1209 and 1221
NORTH AMERICA : 800 498-JDSU (5378)
The JDSU Agile Optical Components family includes modulators, switches,
attenuators and tunable filters. These products provide the basis for spectrally
efficient DWDM transmission utilizing dispersion tolerant modulation, channel
monitoring, wavelength switching, remote power control and dynamic channel
selection. They support a wide range of flexible functionalities at lower
operational expenses for the Agile Optical Network. In addition, we have a
complete line of tunable lasers assemblies and sub-assemblies in our Agile
Transmission Module family.
JDSU Electrostatic MEMS Variable Optical Attenuators (ESVOA) focus on key
network optical power management applications. JDSU offers ESVOA series
attenuators in normally open and normally closed states. ESVOA series
attenuators fully comply with the Telcordia 1221 reliability program. Key features
include a small size, low wavelength dependent loss (WDL), and high reliability.
The ESVOA series attenuator achieves highly repeatable optical attenuation over
C and/or L bands using an electrostatic rotatable mirror. Applied voltage/power
actuates the mirror to rotate, changing the light coupling between the input fiber
and the output fiber of the ESVOA series attenuator.
WORLDWIDE : +800 5378-JDSU
WEBSITE : www.jdsu.com
ELECTROSTATIC MEMS VARIABLE OPTICAL ATTENUATOR
2
Dimensions Diagram
15.4
.54
Ø2
0.6
2.5
250 μm fiber
12.7
900 μm fiber
Specifications
Parameter
Specification
Attenuation type
Operating wavelength range
C band
L band
Attenuation range
Insertion loss1
Tuning speed2
Optical power handling
Wavelength dependence3
At insertion loss (IL)
At 20 dB
Wavelength dependence ripple (0.4 nm)
At 20 dB
Polarization dependence loss
0 to 10 dB
10 to 20 dB
Return loss1
Drive voltage2, 4
Drive power2
Fiber type
Fiber marking
Input port
Output port
Operating temperature
Open or closed
Minimum
Maximum
Maximum
0.2 dB
±0.8 dB
Maximum
0.2 dB
Maximum
Maximum
Minimum
Maximum
Maximum
0.15 dB
0.3 dB
45 dB
6.5 V or 18 V DC
1.8 mW
9/125/250 or 9/125/900 SMF-28 or equivalent
2. For full dynamic range
3. Over C or L bands at 23±3°C relative to 1550 nm or 1590 nm
4. Other drive voltages available
1525 to 1575 nm
1570 to 1610 nm
30 dB
0.7 dB
2 ms
300 mW
Maximum
Maximum
1. Excluding connectors
4
*1'
Ø 5.56
Ø5.56
12.7
3X Ø 0.45
23.5
3XØ0.45
1.5
(Specifications in mm unless otherwise noted.)
Red
Clear/White
-5 to 75°C
Ø
*1'
ELECTROSTATIC MEMS VARIABLE OPTICAL ATTENUATOR
Ordering Information
For more information on this or other products and their availability, please contact your local JDSU account manager or
JDSU directly at 1-800-498-JDSU (5378) in North America and +800-5378-JDSU worldwide or via e-mail at
[email protected].
Sample: ESVOA-OC6200
ESVOACode
O
C
Attenuation Type
Open
Closed
Code
6
8
Drive Voltage
6.5 V
18 V
Code
0
5
Fiber Length2
1.0 meter
1.5 meters
Code
C
L
Wavelength Range
C band
L band
Code
2
9
Fiber Type
250 µm1
900 µm
Code
0
1
2
3
4
5
Connector Type
No connector
FC/PC
FC/APC
SC/PC
SC/APC
LC/PC
1. 250 µm fiber is only available with the ‘no connector’ option.
2. Tolerance on fiber length is ±0.1 m.
SMF-28 is a registered trademark of Corning Incorporated.
Telcordia is a registered trademark of Telcordia Technologies Incorporated.
Product specifications and descriptions in this document subject to change without notice.
© 2007 JDS Uniphase Corporation 30137460 Rev. 003 05/07 ESMEMSVOA.DS.CC.AE
NORTH AMERICA : 800 498-JDSU (5378)
WORLDWIDE : +800 5378-JDSU
WEBSITE : www.jdsu.com
May 2007