3010
VOLTAGE-VARIABLE DELAY LINE
T
R
< 1ns
(SERIES 3010)
FEATURES
•
•
•
•
•
•
•
Varactor Technology
Fast rise time for high frequency applications
Delay continuously adjustable from 2.4ns to 3.4ns
Very narrow device (SIP package)
Stackable for PC board economy
Epoxy encapsulated
Meets or exceeds MIL-D-23859C
1
IN
data
3
delay
devices,
inc.
3010
3
G
6
7
9
OUT
PACKAGE
VC G
3010-P: Positive control voltage
3010-N: Negative control voltage
FUNCTIONAL DESCRIPTION
PIN DESCRIPTIONS
The 3010-series devices are continuously variable, single-input, single-
IN
Signal Input
output, passive delay lines. The signal input (IN) is reproduced at the
OUT Signal Output
output (OUT), shifted by a time (T
D
) which is adjusted via an applied
VC
Control Voltage
control voltage (VC). This control voltage is positive for the 3010-P and
G
Ground
negative for the 3010-N. The characteristic impedance of the line is
nominally 50 ohms. The rise time (T
R
) of the lines is no more than 1ns, resulting in a 3dB bandwidth of at
least 300MHz. The delay resolution is limited only by that of the control voltage.
SERIES SPECIFICATIONS
•
•
•
•
•
•
•
•
•
•
Varactor voltage range (3010-P):
1.3V (max T
D
) to 11.3V (min T
D
)
Varactor voltage range (3010-N): -1.3V
(max T
D
) to -11.3V (min T
D
)
Range of delay variation:
1.0ns minimum
Minimum delay:
2.4ns
±
0.25ns
Impedance:
45Ω - 68Ω
Output rise time:
1.0ns max
Bandwidth:
300MHz min
1.5
Overshoot/preshoot:
±
20% max
Delay
Operating temperature:
-10°C to +80°C
Impedance
Temperature coefficient:
1000 PPM/°C max
1.0
70
60
1.08 MAX
.150
MAX
Series
3010
IN
G
VC G
OUT
Delay
Variation
(ns)
0.5
Impedance
(Ω)
50
.380
MAX
.100
MIN
.200
.100
.800
.200
.020
DIA
0.0
1.3
6.3
11.3
40
Varactor Voltage (V)
Package Dimensions
Doc #04001
8/10/2005
Typical Delay/Impedance Variation
2004
Data Delay Devices
DATA DELAY DEVICES, INC.
3 Mt. Prospect Ave. Clifton, NJ 07013
1
3010
TYPICAL APPLICATIONS
Rin
IN
3010-P
VC
OUT
G
r
G
r:
Rin:
Ro:
Ro
Signal source impedance
Input termination resistor
Output termination resistor
+
1.3V - 11.3V*
•
Set Ro to the median impedance value within
the delay adjustment range (50Ω - 60Ω)
•
Set Rin = Rout - r
*Reverse polarity for 3010-N.
Analog Interface
Vcc=0V
Vcc
IN
Vee
G
Vcc
Vcc
IN
1.6Ro
3010-P
VC
OUT
G
Vee
Vee
3010-P
VC
OUT
G
G
Ro
Vcc, Vee or –2V
2.6Ro
Vcc or Vee
+
0V - 10V
Vcc
-2V
+
0V - 10V
Vcc
Vee=-5.2V
Vcc=0V
Vcc
IN
Vee
G
Vcc
Vcc
IN
1.6Ro
3010-N
VC
OUT
G
Vee
Vee
3010-N
VC
OUT
G
G
Ro
Vcc, Vee or –2V
2.6V – 12.6V
-2V
Vcc or Vee
2.6V – 12.6V
2.6Ro
Vee=-5.2V
+
Vcc
+
Vcc
ECL with –2V Termination
ECL without –2V Termination
Note: The varicap voltage is referenced to the DC level of the input signal. In the case of ECL applications, a
voltage of 0V to 10V (2.6V to 12.6V for the 3010-N) should be applied at pin 6, because the signal line has –1.3V
DC level. This assumes the ECL signal has approximately 50% duty cycle.
Doc #04001
8/10/2005
DATA DELAY DEVICES, INC.
Tel: 973-773-2299
Fax: 973-773-9672
http://www.datadelay.com
2
3010
PASSIVE DELAY LINE TEST SPECIFICATIONS
TEST CONDITIONS
INPUT:
Ambient Temperature:
Input Pulse:
Source Impedance:
Rise/Fall Time:
Pulse Width:
Period:
25 C
±
3 C
High = 1.8V typical
Low = 0.8V typical
50Ω Max.
3.0 ns Max. (measured
at 10% and 90% levels)
PW
IN
= 500ns
PER
IN
= 1000ns
o
o
OUTPUT:
R
load
:
C
load
:
Threshold:
50Ω
<10pf
50% (Rising & Falling)
NOTE:
The above conditions are for test only and do not in any way restrict the operation of the device.
PER
IN
PW
IN
T
RISE
INPUT
SIGNAL
90%
50%
10%
T
FALL
V
IH
90%
50%
10%
V
IL
D
FALL
T
FALL
D
RISE
T
RISE
OUTPUT
SIGNAL
90%
50%
10%
V
OH
90%
50%
10%
V
OL
Timing Diagram For Testing
OUT (50Ω)
PULSE
GENERATOR
TRIG
IN
DEVICE UNDER
TEST (DUT)
+
VC
OUT
IN (50Ω)
TRIG
OSCILLOSCOPE
Test Setup
Doc #04001
8/10/2005
DATA DELAY DEVICES, INC.
3 Mt. Prospect Ave. Clifton, NJ 07013
3
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