SaRonix
Voltage Controlled Crystal Oscillator
Technical Data
Frequency Range:
Frequency Stability:
3.3V, LVCMOS
S1300 / S1309 / ST1300 / ST1309 Series
1.5 MHz to 28.6363 MHz
±20, ±25 or ±50ppm over all conditions: operating
temperature, voltage change, load change, calibration
tolerance, shock and vibration, with V
C
= 1.65V
± 3ppm max per year, ±10ppm max for 10 years
Aging @ 25°C:
Temperature Range:
Operating:
Storage:
Supply Voltage:
Recommended Operating:
ACTUAL SIZE
0 to +70°C or -40 to +85°C
-55 to +125°C
3.3V ±10%
10mA typ, 15mA max
Supply Current:
Output Drive:
Description
A 3.3V, voltage controlled crystal oscil-
lator with output logic levels compatible
with LVCMOS and LVTTL logic fami-
lies. The series is designed with excellent
Jitter characteristics which makes it ideal
for use in Telecom and Datacom applica-
tions. True SMD DIL versions for IR
reflow are available, select option "S" in
part number builder. See separate data
sheet for SMD package dimensions.
Applications & Features
•
Phase-Locked Loop (PLL) Clock and
Data Recovery, Frequency Transaltion,
Frequency Synthesis apps in Video,
Video Compression, Telephony, and
LAN/WAN Data Communication
•
3.3 Volt operations
•
LVCMOS / LVTTL compatible
•
3.5ps max RMS period jitter
•
Wide range of performance options:
±50 to ±100 ppm APR*
±20 to ±50 ppm Frequency Stability
•
Tri-State option
•
True SMD for IR reflow available
Output Waveform
CMOS
T
r
Logic 1
80%V
DD
50%V
DD
20%V
DD
Logic 0
T
f
Symmetry:
Rise & Fall Times:
Logic 0:
Logic 1:
Load:
Jitter:
Pull Characteristics:
Input Impedance (pin 1):
Frequency Response (-3dB):
Pullability:
Control Voltage:
Transfer Function:
Linearity:
Center Control Voltage:
Mechanical:
Shock:
Solderability:
Terminal Strength:
Vibration:
Solvent Resistance:
Resistance to Soldering Heat:
Environmental:
Gross Leak Test:
Fine Leak Test:
Thermal Shock:
Moisture Resistance:
45/55% max @ 50% V
DD
9ns max 20% to 80% V
DD
10% V
DD
max
90% V
DD
min
30pF
3.5ps max RMS period jitter
50KΩ min
10 kHz min
±50, ±70, ±100ppm APR* min
0.3 to 3.0V
Frequency Increases when Control Voltage Increases
5 or 10% max
1.65V
MIL-STD-883, Method 2002, Condition B
MIL-STD-883, Method 2003
MIL-STD-883, Method 2004, Condition B2
MIL-STD-883, Method 2007, Condition A
MIL-STD-202, Method 215
MIL-STD-202, Method 210, Conditions A, B or C
( I or J for Gull Wing)
MIL-STD-883C,
MIL-STD-883C,
MIL-STD-883C,
MIL-STD-883C,
Method
Method
Method
Method
1014, Condition C
1014, Condition A2
1011, Condition A
1004
*
APR = (VCXO Pull relative to specified Output Frequency)
–
(VCXO Frequency Stability)
NOTE: APR is inclusive of 10 Years Aging
SYMMETRY
DS-126
REV E
SaRonix
141 Jefferson Drive • Menlo Park, CA 94025 • USA • 650-470-7700 • 800-227-8974 • Fax 650-462-9894
SaRonix
Voltage Controlled Crystal Oscillator
Technical Data
Package Details
21.0 max
.825
5.08
max
.200
0.91
.036
max
3.3V, LVCMOS
S1300 / S1309 / ST1300 / ST1309 Series
Part Numbering Guide
S T 130 9 A A A J - 19.4400 (T)
SaRonix
Blank
= Non Tri-State
T
= Tri-State (6 pins)
Supply Voltage
130 = 3.3V
Package Size
0 = Full Size
9 = 1/2 Size
Stability Tolerance
AA = ±20ppm, 0 to +70°C
A = ±25ppm, 0 to +70°C
B = ±50ppm, 0 to +70°C
E = ±50ppm, -40 to +85°C
Packing Method
(T) = Tape & Reel for SMD versions,
full reel increments only (200pcs)
Blank = Bulk
Frequency (MHz)
Lead/Package Types
Blank = Thru-Hole
S = True SMD Adaptor for DIL14
J = Gull Wing
Pullability
(Minimum APR)**
A = ±50 ppm
M = ±70 ppm
B = ±100 ppm, not available at all frequencies
Linearity
A = 5%
B = 10%
6.35±0.51
0.25±0.02
3.94±.25
.155±.010
15.24±.13
.600±.005
.46±.08
.018±.003
Pin 1
Pin 3
Pin 7
7.75
max
.305
13.0
.510
max
Pin 14
Pin 12
(4) Glass Insulators
Pin 8
Pin Function:
Pin 1: Control Voltage
Pin 3: Tri-State control (optional)
Pin 7: GND/Case (V
SS
)
Pin 8: OUTPUT
Pin 12: N/C (optional)
Pin 14: +3.3VDC (V
DD
)
**
APR = (VCXO Pull relative to specified Output Frequency)
–
(VCXO Frequency Stability)
NOTE: APR is inclusive of 10 Years Aging
Marking Format
**
Includes Date Code, Frequency & Part Number
Tri-State Logic Table
SARONIX
VCXO
Pin 3(2) Input
Denotes Pin 1
HALF SIZE PACKAGE
13.0
max
.510
0.91
max
.036
5.08
max
.200
Pin 8(5) Output
Oscillation
High Impedance
Required Input Levels on Pin 3(2):
Logic 1 = 0.7 V
DD
min
Logic 0 = 0.3 V
DD
max
Logic 1 or NC
Logic 0 or GND
Test Circuit
.46±.08
.018±.003
Pin 2
Optional
Tri-State Control
Pin 1
Control
Voltage
6.35±0.51
0.25±0.02
2.54
.100
7.62±.20
.300±.008
Pin 4
GND Case (V
SS
)
mA
M
Pin 14(8)
V
DD
POWER
SUPPLY
VM
Pin 1(1)
*
TEST
POINT
Pin 8(5)
OUT
C
L
(Note A) = 30pF
Pin 7(4)
GND
Pin 3(2)
OSCILLATOR
13.0
.510
max
7.62±.20
.300±.008
Pin 8
V
DD
Pin 5
Output
Marking Format
**
Includes Date Code, Frequency & Part Number
SARONIX
CONTROL
VOLTAGE
OPTIONAL
TRI-STATE
NOTE A: C
L
includes probe and fixture capacitance
*
Items in brackets( ) represent Half Size model
Denotes Pin 1
**
Exact location of items may vary
Scale: None (Dimensions in
mm
)
inches
All specifications are subject to change without notice.
DS-126
REV E
SaRonix
141 Jefferson Drive • Menlo Park, CA 94025 • USA • 650-470-7700 • 800-227-8974 • Fax 650-462-9894
RF/Wirelessly
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