Datasheet - EMCORE Corporation

Optiva OTS-1L2 3 GHz
Dual Wideband Fiber Optic Links
SATCOM
DATASHEET | MARCH 2015
Optiva Dual Wideband Fiber Optic Links are optimized to perform
in the 50 MHz to 3 GHz frequency range providing transparent
signal transportation for satellite antenna applications. The OTS-1L2
is a dual RF fiber optic link that accepts two RF inputs and provides
two RF outputs with a single plug-in pair. This dual-density card
increases the chassis capacity by a factor of two.
EMCORE Advantage
EMCORE’s vertically integrated, ISO-9001, RoHS compliant facility and its worldclass GaAs InP wafer fab (Ortel heritage) has been successfully designing and
manufacturing highly linear, wide dynamic-range laser/photodiode die, modules,
PCBAs, cards, and integrated systems for the CATV, satcom, and telecommunication RF fiber signal transport applications.
Applications
„„ Satellite Antenna Signal Transport
System Design
The Optiva platform includes a wide range fiber
„„ DBS Antenna Signal Distribution
optic transport products for satellite and micro-
„„ Inter-Facility Signal Transport
wave communications from 1 MHz to 40 GHz. These units can be used to construct transparent inter- and intra-facility links from 1 meter to >100 km for RF
Features
„„ 50 MHz to 3 GHz
„„ 30 dB Adjustable Gain Range
„„ 50 Ohm SMA
„„ Tx & Rx RF Power Monitors Via LED & Remote
„„ LNB Power
and microwave signal transport, antenna remoting, video transport, electronic
warfare systems and other high-dynamic-range applications.
Optiva is a completely modular, hot-swappable platform. Both 19” rack-mount
and compact tabletop, or wall-mountable enclosures are available. The 3 RU 19”
rack-mount, fan-cooled enclosures (Model OT-CC-16 and OT-CC-16F) can support
up to 16 insert cards and utilize two dual-redundant, hot-swappable, 100 or 200
watt power supplies. The 1 RU 19” rack-mount, fan-cooled enclosure (Model: OTCC-6-1U) can accommodate 6 insert cards and utilizes two hot-swappable 60 watt
power supplies. Compact one-slot (OT-DTCR-1), or two-slot (OT-DTCR-2) enclosures
„„ SNMP Monitoring and Control
are also available that use an external wall-mount power supply.
„„ High-Dynamic-Range DFB Laser
Block Diagram
„„ Fits in Optiva Enclosures
„„ CE & CSA Certified, RoHS
© 2015 EMCORE Corporation | REV 2015.03
626 293 3400
+1 626-293-3400
[email protected]
[email protected]
www.emcore.com
www.emcore.com
Optiva OTS-1L2 3 GHz
Dual Wideband Fiber Optic Links
SATCOM
DATASHEET | MARCH 2015
Performance Highlights
OTS-1L2
Parameter
Link
Min
Typical
Max
Units^
MHz
Frequency Range
50
-
3000
Frequency Response
50 - 3000 MHz
Any 36 MHz
-
+/- 2
+/- 0.2
-
Noise Figure (Max RF Gain, 1 GHz)
-
12
-
dB
Inut Third-Order Intercept (Max RF Gain, 1 GHz)
-
1
-
dB
Spurs Free Dynamic Range
-
108
-
dB/Hz²/³
RF Link Gain (at Max RF Gain)2
-
25
-
dB
-50
(max RF gain)
-
10
(min RF gain)
dBm
Tx Gain (TG), Max, 1 GHz2
-2
5
-
dB (W/A)
RF Gain Adjustment (Manual, 1 dB Step)
0
-
30
dB
- 36
(max RF gain)
-
-6
(min RF gain)
dB
dB
1
Tx
RF Input (Composite)
Automatic Gain Control (Hold Range)
Optical Output
3
6
-
dBmo
1270
-
1610
nm
Input Impedance
-
50
-
Ohm
Input Return Loss
950 - 2150 MHz
50 - 3000 MHz
13
8
18
13
-
LNB Voltage
Current
16
-
17
-
19
350
V
mA
-
12
-
450
V
mA
-203
-
8
dBm
20
22
-
dB (A/W)
Wavelength
dB
DC Power (LNB Off)
Rx
Optical Input
Rx Gain (RG), Max, 1 GHz2
RF Adjustment Range (Manual, 1 dB Step)
0
-
30
dB
-40
-
6
dBm
Output Impedance
-
50
-
Ohm
Output Return Loss
950 - 2150 MHz
50 - 3000 MHz
13
8
15
10
-
-
12
-
320
RF Output (Composite)4
OTS-1L2 (Tx) OTS-1LS2 (Rx)
Typical Frequency Response
2 dB/division
3.0 GHz
dB
DC Power
1. SFDR = 2/3 * (IIP3 + 174 - NF), measured at 1 GHz
V
mA
.05 GHz
3.5 GHz
Enclosure Options
2. Link RF Gain = TG + RG – 2*FiberLoss, (assumes Rin = Rout), measured with 1 m fiber
3. Minimum optical input to maintain 35 dB C/N on 36 MHz RF carrier, over 1 m fiber link
4. Depending on RF input level, RF gain setting, and optical loss
Absolute Maximum Rating*
Parameter
Operating Temperature
Min
Max
Unit
°C
-20
60
DC Input Voltage
-
+16
V
Maximum Tx RF Input (Min RF Gain)
-
+15
dBm
Maximum Rx Optical Input
-
+10
dBmo
*Damage may occur beyond these limits
© 2015 EMCORE Corporation | REV 2015.03
+1 626-293-3400
[email protected]
www.emcore.com
Optiva OTS-1L2 3 GHz
Dual Wideband Fiber Optic Links
SATCOM
DATASHEET | MARCH 2015
Ordering Information
Product Code
Specifications
OTS-1LC2T/S5-xx/yy-LA-IC
2Tx, 50-3000 MHz, CWDM CH xx/yy, Dual 6 dBm, Dual 50 Ohm SMA, Dual LC-APC
OTS-1L2T1/S5-13-LA-IC
2Tx, 50-3000 MHz, 1310 nm, Dual 6 dBm, Dual 50 Ohm SMA, Dual LC-APC
OTS-1LS2R/S5-LA-IC
2Rx, Dual 50 Ohm SMA, Dual LC-APC
OPV-CTLR-IC
NMS SNMP Controller Card & MIB for Optiva Family
OTP-1ETR-A2/A2
Optical Transceiver, 1CH, 10/100 Ethernet, SM, Dual LC -- See OTP-1E datasheet for exact models
OT-CC-16-XX
Chassis, Rack-Mount, 16-Slot, 3 RU -- See OT-CC-16F datasheet for exact models
PS-200-(xx)
Power Supply, 12 VDC 100 to 240 VAC, 50/60 Hz, (Specify power cord (NA, EU, UK))
OT-CC-6-XX
Chassis, Rack-Mount, 6-Slot, 1 RU with Power Supply - See OT-CC-6-XX datasheet for exact models
OT-DTCR-1 / OT-DTCR-2
Chassis, flange-mount, with Power Supply, 1 slot / 2 slot - See OT-DTCR datasheet for exact models
Laser Safety
This product meets the appropriate standard in Title 21 of the Code of Federal Regulations (CFR). FDA/CDRH Class 1M laser
product. This device has been classified with the FDA/CDRH under accession number 0220191. All versions of this laser are Class
1M laser product, tested according to IEC 60825-1:2007 / EN 60825-1:2007. An additional warning for Class 1M laser products.
For diverging beams, this warning shall state that viewing the laser output with certain optical instruments (for example: eye
loupes, magnifiers, and microscopes) within a distance of 100 mm may pose an eye hazard. For collimated beams, this warning
shall state that viewing the laser output with certain instruments designed for use at a distance (for example: telescopes and
binoculars) may pose an eye hazard.
Wavelength = 1.3/1.5 μm.
Maximum power = 30 mW.
*Caution - Use of controls or adjustments or performance of procedures other than those specified herein may result in hazardous radiation exposure.
*IEC is a registered trademark of the International Electrotechnical Commision.
© 2015 EMCORE Corporation | REV 2015.03
+1 626-293-3400
[email protected]
www.emcore.com