Preliminary Data Sheet
VS-509
Dual Frequency VCSO
Features
•
Industry Standard Package, 9.1 x 13.8 x 3.1 mm
•
5
th
Generation ASIC Technology for Ultra Low Jitter
125 fs-rms (f
N
= 622.08 MHz, 12 kHz to 20 MHz)
120 fs-rms (f
N
= 622.08 MHz, 50 kHz to 80 MHz)
•
Output Frequencies from 150 MHz to 1000 MHz
•
Spurious Suppression, 90 dBc Typical
•
3.3V Supply Voltage
•
LVPECL or LVDS Output Configurations
•
Tri-State Frequency Select (F1, OD, F2)
•
Compliant to EC RoHS6 Directive
Pb
Applications
PLL circuits for Clock Smoothing and Frequency Translation
Description
•
SONET / SDH
•
OTN (Optical Transport Network)
•
10 GbE (Gigabit Ethernet)
•
10 GFC (Gigabit Fibre Channel)
•
40 GbE & 100 GbE
•
Synchronous Ethernet
•
WiMax
Vcc
COutput
Output
Standard
GR-253-CORE
ITU-T G.709/Y.1331
IEEE 802.3ae
INCITS 364-2003
IEEE 802.3ba
ITU-T G.8261
IEEE 802.16
Description
The VS-509 is a Voltage Controlled SAW Oscillator that
operates at the fundamental frequency from one of the two
internal SAW filters. The SAW filters are high-Q Quartz devices
that enable the circuit to achieve low phase jitter performance
over a wide operating temperature range. A divider circuit is
deployed for output frequencies less than 600 MHz. The
selectable dual oscillator is housed in a hermetically sealed
leadless surface mount package and offered on tape and reel.
It has a tri-state Frequency Select function that provides one of
three conditions: Frequency 1, Output Disable, or Frequency 2.
SAW 1
SAW 2
1
X
LVPECL
LVDS
X=1,2,4
Vc
FS
Gnd
Vectron International, 267 Lowell Road, Hudson, NH 03051
Page 1 of 9
Tel: 1-88-VECTRON-1
•
Web:
www.vectron.com
Rev: 29Oct2010
VS-509 Dual Frequency VCSO
Electrical Performance: 3.3V LV-PECL
Parameter
Frequency
Nominal Frequency
Absolute Pull Range
Linearity
Gain Transfer (Low / Standard)
Temperature Stability
f
N
APR
Lin
K
V
f
STAB
V
CC
I
CC
I
CC
150
±50
Preliminary Data Sheet
Symbol
Minimum
Typical
Maximum
1000
Units
MHz
ppm
%
ppm/V
ppm
V
mA
mA
mV
mV-pp
V-pp
mA
ps-pp
ps-pp
%
dBc
fs-rms
fs-rms
fs-rms
kΩ
kΩ
kHz
Notes
1,2,3
1,2,3,9
2,4,9
2,9
1,7
2,3
3
3
2,3
2,3
2,3
7
6,7
6,7
2,3
7
7,8
7,8
7,8
7
7
7
1,3
±7
+300 / +365
±100
2.97
3.3
73
60
V
CC
-1.3
750
1.5
180
180
50
90
150
190
280
167
472
200
-40
9.1 x 13.8 x 3.1
+85
3.63
75
V
CC
-1.1
Supply
Voltage (± 10%)
Current (Typical 50Ω Load)
Current (No Load)
Outputs
Mid Level
Single Ended Swing
Differential Swing
Current
Rise Time
Fall Time
Symmetry
Spurious Suppression
Jitter (600
≤
f
N
≤
1000)
Jitter (300
≤
f
N
≤
500)
Jitter (150
≤
f
N
≤
250)
V
CC
-1.5
I
OUT
t
R
t
F
SYM
φJ
φJ
φJ
Z
C
Z
C
BW
T
OP
45
85
20
250
250
55
Control Voltage
Input Impedance (F1 or F2 Enabled)
Input Impedance (Output Disabled)
Modulation Bandwidth
Operating Temperature
Package Size
°C
mm
1. See Standard Frequencies and Ordering Information (Pg 8).
2. Parameters are tested with production test circuit (Pg 3).
3. Parameters are tested at ambient temperature with test limits guard-banded for specified operating temperature.
4. Measured as the maximum deviation from the best straight-line fit, per MIL-0-55310.
5. The Vc Model is described below (Fig 1).
6. Parameters are described with waveform diagram below (Fig 2).
7. Not tested in production, guaranteed by design, verified at qualification.
8. For Frequencies > 600 MHz, Jitter is integrated across 50 kHz to 80 MHz.
For Frequencies < 600 MHz, Jitter is integrated across 12 kHz to 20 MHz. (Both per GR-253-CORE Issue3).
9. Tested with Vc = 0.3V to 3.0V.
SYM = 100 x t
A
/ t
B
t
R
167kΩ
Vc
3pF
80%
t
F
Vcc-1.1V
Vcc=+2V
+
-
1.65V
20%
Vcc-1.3V
Vcc-1.5V
t
A
t
B
Figure 1. Vc Model – F1 or F2 Enabled
Vectron International, 267 Lowell Road, Hudson, NH 03051
Page 2 of 9
Figure 2. 10K LV-PECL Waveform
Tel: 1-88-VECTRON-1
•
Web:
www.vectron.com
Rev: 29Oct2010
VS-509 Dual Frequency VCSO
Absolute Maximum Ratings
Parameter
Power Supply
Input Current
Output Current
Voltage Control Range
Frequency Select
Storage Temperature
Soldering Temperature / Duration
Symbol
V
CC
I
IN
I
OUT
V
C
FS
T
STR
T
PEAK
/ t
P
Preliminary Data Sheet
Ratings
0 to 6
100
25
0 to V
CC
0 to V
CC
-55 to 125
260 / 40
Unit
V
mA
mA
V
V
°C
°C
/ sec
Stresses in excess of the absolute maximum ratings can permanently damage the device. Also, exposure to
these absolute maximum ratings for extended periods may adversely affect device reliability. Functional
operation is not implied at these or any other conditions in excess of those represented in the operational
sections of this datasheet. Permanent damage is also possible if any device input (Vc or FS) draws >100 mA.
Test Circuits & Output Load Configurations
+3.3V
Vc (-3.00V to -0.30V)
0.10
μ
F
FS
0.01
μ
F
Vc
FS
Gnd
Vcc
COutput
Output
0.01
μ
F
0.01
μ
F
+
-
+
-
H (-0.55V to 0.00V)
M (-1.90V to -1.40V)
L (-3.30V to -2.75V)
+2.0V
0.10
μ
F
0.01
μ
F
Vcc
COutput
Output
Or
0.01
μ
F
0.01
μ
F
10K
Ω
1
2
3
6
5
4
Vc
FS
Vee
-1.3V
1
2
3
6
5
4
240
Ω
240
Ω
10K
Ω
Functional Test:
Allows use of standard power supply biasing
configuration. Pull down resistors are used for LV-PECL outputs
and are removed for with LVDS outputs. Since the LVDS outputs
are AC coupled, the output DC levels cannot be measured.
V DMV
Production Test:
DC levels shown for Vee, OSelect,
& Vc are for devices configured for 3.3V operation.
Vee
LV-PECL outputs are DC coupled to 50
Ω
test
equipment. LVDS outputs are connected to a digital volt meter, then AC
coupled to the test equipment. The digitial volt meter allows for Mid Level &
Swing measurements.
+3.3V
0.10
μ
F
0.01
μ
F
+3.3V
0.10
μ
F
0.01
μ
F
Vc
FS
Gnd
1
2
3
6
5
4
Vcc
COutput
Output
Z = 50
Ω
Z = 50
Ω
100
Ω
Vc
FS
Gnd
1
2
3
6
5
4
Vcc
COutput
Output
Z = 50
Ω
Z = 50
Ω
100
Ω
240
Ω
240
Ω
LV-PECL to LV-PECL:
For short transmission lengths, the pull
down resistor values shown provide reasonable power
consumption and waveform performance.
LVDS to LVDS:
The 100
Ω
resistor should be removed if this load is
provided internally within the LVDS receiver.
Vectron International, 267 Lowell Road, Hudson, NH 03051
Page 3 of 9
Tel: 1-88-VECTRON-1
•
Web:
www.vectron.com
Rev: 29Oct2010
VS-509 Dual Frequency VCSO
Preliminary Data Sheet
Typical Characteristics: Vc Pull, Vc Pull Linearity, & Vc Pull Slope
800
700
600
500
400
300
Vc Pull
Frequency (ppm)
200
100
0
-100
-200
-300
-400
-500
-600
-700
-800
0.00
0.30
0.60
0.90
1.20
1.50
1.80
2.10
2.40
2.70
F1
F2
Upr Guardband
Lwr Guardband
F1
Gain Transfer
Total Pull
Freq @1.65V
364.4
1004
100
F2
367.4
ppm/V (0.3V to 3.0V)
985
ppm (0.3V to 3.0V)
100
ppm
3.00
3.30
Control Voltage (V)
10%
8%
6%
4%
Vc Pull Linearity
F1
F2
Upr Limit
Lwr Limit
Frequency (%)
2%
0%
-2%
-4%
-6%
-8%
-10%
0.00
F1
F2
Max
2.43%
1.22%
(0.3V to 3.0V)
Min
-2.90%
-3.12%
(0.3V to 3.0V)
0.30
0.60
0.90
1.20
1.50
1.80
2.10
2.40
2.70
3.00
3.30
Control Voltage (V)
800
750
700
650
600
550
Vc Pull Slope
F1
F2
Vc Slope (ppm/V)
500
450
400
350
300
250
200
150
100
50
0
0.00
0.30
0.60
0.90
1.20
1.50
1.80
2.10
2.40
2.70
3.00
3.30
Max
Min
Ratio
F1
465.2
264.4
1.76
F2
478.1
ppm/V (0.3V to 3.0V)
270.7
ppm/V (0.3V to 3.0V)
(0.3V to 3.0V)
1.77
Control Voltage (V)
Vectron International, 267 Lowell Road, Hudson, NH 03051
Page 4 of 9
Tel: 1-88-VECTRON-1
•
Web:
www.vectron.com
Rev: 29Oct2010
VS-509 Dual Frequency VCSO
Typical Characteristics: Phase Noise & Jitter
0
-10
-20
-30
-40
-50
-60
Preliminary Data Sheet
F1
F2
12K - 20M
50K - 80M
Phase Noise
Offset
F1
F2
(Hz) (dBc/Hz) (dBc/Hz)
10
100
1K
10K
100K
1M
10M
100M
-33.9
-62.3
-87.8
-110.4
-131.2
-148.6
-149.9
-150.2
Jitter
Interval
(Hz)
12K-20M
50K-80M
F1
(fs)
118.4
110.7
F2
(fs)
117.9
118.0
-33.4
-62.3
-87.6
-109.9
-130.8
-147.7
-148.7
-148.6
L(f) (dBc/Hz)
-70
-80
-90
-100
-110
-120
-130
-140
-150
-160
10
100
1,000
10,000
100,000
1,000,000
10,000,000
100,000,000
Offset (Hz)
Vectron International, 267 Lowell Road, Hudson, NH 03051
Page 5 of 9
Tel: 1-88-VECTRON-1
•
Web:
www.vectron.com
Rev: 29Oct2010
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