The 5017-Series Delay System delivers unmatched performance for
radar testing, signal processing, phased antenna array, and phase
noise testing. The 5017 also provides unmatched convenience and
robustness because of its fully integrated fiber optics. All the fiber
interfaces are reliably fusion spliced internal to the box, thus eliminating
any handling and maintenance of optical connectors. The user only
needs to provide +5 and +15 volts, then plug in his RF connectors.
Emcore’s fiber-optic transceivers provide bandwidth that is essentially
independent of fiber length, loss or delay, and triple transit signals that
are immeasurable. In addition to enhanced electrical performance, the
delay lines provide several mechanical advantages. The small size of
these components allows for a long delay in a compact package with
the superior temperature stability of fiber. Emcore’s technology takes
advantage of the rigid yet flexible properties of fiber-optic cable to
provide repeatable enhanced phase and group delay characteristics.
Emcore’s Model 5017 consists of directly modulated DFB lasers and
photodiodes fabricated with mature, field-proven Ortel technology.
Performance Highlights
Min
Wavelength Options
1290
Typical
Max
1580
110
-25
0.1
-
-
+65
10 - 18
Units
nm
µ-sec
°C
GHz
Applications
Radar testing/calibration
Signal processing
Phased array antennas
Phase noise testing
Features
Bandwidth to 18 GHz
High dynamic range
Built-in optical isolator
1310 nm
Up to 110
µ
-sec
Integrated fiber
Internal Delay Spool
Temperature Range
Frequency Range
See following pages for complete specifications and conditions.
For more information on this and other products:
Contact Sales at Emcore 626-293-3400, or visit www.emcore.com.
5017-Series Delay Line
DATA SHEET
|
JANUARY 2, 2008
Absolute Maximum Ratings
Stresses in excess of the absolute maximum ratings can cause permanent damage to the device. These are
absolute stress ratings only. Functional operation of the device is not implied at these or any other conditions in
excess of those given in the operational sections of the data sheet. Exposure to absolute maximum ratings for
extended periods can adversely affect device reliability.
Parameter
Operating Temperature Range of Baseplate:
Storage Temperature
RF Input Power
ESD, module
TEC Current, module
Symbol
T
OP
T
STG
P
IN
-
I
TEC
Condition
continuous
-
60 seconds
HBM: R = 1500 Ohm, C = 100 pF
continuous
Min
-55
-55
-
-500
-1.9
Max
+75
+85
20
500
1.9
Units
°C
°C
dBm
V
A
RF Characteristics
Parameter
Upper Band Edge Frequency
Lower Band Edge Frequency
Amplitude Flatness
Noise Figure
Max Delay Time
Insertion Loss
Input / Output Return Loss
Input Third Order Intercept
Impedance
Input 1 dB Compression
Triple Transit Response
9
+30
28
6
+25
50
+20
<-75
±
1.5
49
±
2.0
54
8
36
9
+30
50
6
+25
5017A
4
5017B
10
0.1
±
2.5
64
±
3.5
69
±
1.5
59
±
2.0
64
110
56
5017C
15
5017D
18
5017E
4
5017F
10
0.1
±
2.5
74
±
3.5
79
5017G
15
5017H
18
Unit
GHz
GHz
dB
dB
µ-sec
dB
dB
dBm
Ω
dBm
dBc
Connector Options
Parameter
Model Number
RF Connector
5017A/E
Specifications
5017B/F
5017C/G
5017D/H
SMA (f)
For more information on this and other products:
Contact Sales at Emcore 626-293-3400, or visit www.emcore.com.
5017-Series Delay Line
DATA SHEET
|
JANUARY 2, 2008
dc Interface Characteristics
Pin Number
1
2
Min
14V
4.75V
Typ
15V
5V
Max
16V
5.5V
Max Ripple
100 mV p-p
200 mV p-p
Current
0.3 A max
1.6 A max
Outline Diagram Model 5017A/B/C/B
Dimensions are in inches.
0.19
6.75
diameter 0.125
6.00
5.50
6.375
0.25
POWER ON
RF IN
DB 9 M
RF OUT
1.117
”
2.38
EMCORE
3 of 5
5017-Series Delay Line
DATA SHEET
|
JANUARY 2, 2008
Outline Diagram 5017E/F/G/H
Dimensions are in inches.
0.19”
6.75
diameter 0.125
6.00
5.50
6.375
0.25
X
Dimension “X”
35
µ-Sec
Max: 4.38 inches
60
µ-Sec
Max: 5.38 inches
80µ-Sec Max: 6.38 inches
110
µ-Sec
Max: 7.88 inches
POWER ON
2.38
RF IN
DB 9 M
RF OUT
1.117
”
For more information on this and other products:
Contact Sales at Emcore 626-293-3400, or visit www.emcore.com.
5017-Series Delay Line
DATA SHEET
|
JANUARY 2, 2008
Pin/Package Information
Nine-Pin D-sub Connector
Pin
1
2
3
4
5
6
7
8
9
Description
+15 Vdc
+5 Vdc
NC
Power Ground
Reference Ground
Laser Photodiode Current Monitor
Received Optical Power
Laser Current Monitor
Laser Over-temperature Alarm
1
Front Panel LEDs
Power on
dc Monitor Voltages
Laser Photodiode current, pin6
o
1V/100mA
±2%
accuracy (into 1 MΩ
load). Proportional to laser power at
beginning of fiber.
Photodiode current, pin7
o
1V/mA
±2%
accuracy (into 1 MΩ load).
Proportional to photodiode input power
end of fiber.
Laser dc current, pin 8:
o
1V/100mA
±2%
accuracy (into 1 MΩ
load).
Alarm Circuits
The alarms are open-collector outputs capable
20 mA when active and with standing +15
VDC when off.
Laser over temperature alarm, pin 9
o
Laser Temperature. This alarm is ON
(sinks current) if the laser substrate
temperature is more than 2
o
C higher
than the factory setpoint. The alarm is
not activated if the temperature is
LOWER than the setpoint.
Delay Time
The delay time is shown as “XXXX”.
X (hundreds) X (tens) X (ones) X (tenths)
A 5017C with a delay time of 15.5
µ-sec
would
be shown as 5017C-0155
1: Open collector outputs
Ordering Options Delay Line (For example, 5017A-0060)
5017
n-
Frequency
XXXX
Delay (Internal)
A
B
C
D
0.1 GHz to 4 GHz
0.1 GHz to 10 GHz
0.1 GHz to 15 GHz
0.1 GHz to 18 GHz
8
µ-sec
max
Ordering Options Delay Line (For example, 5017E-0850)
5017
n-
Frequency
XXXX
Delay (External)
E
F
G
H
0.1 GHz to 4 GHz
0.1 GHz to 10 GHz
0.1 GHz to 15 GHz
0.1 GHz to 18 GHz
110
µ-sec
max
Information contained herein is deemed to be reliable and accurate as of issue date. EMCORE reserves the right to change the design or specifications of
the product at any time without notice. Ortel, the Ortel logo, EMCORE, and the EMCORE logo are trademarks of EMCORE Corporation.
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