Surface Mount Oven Stabilized Oscillator DOC - Connor

Available at Digi-Key**
www.digikey.com
Surface Mount
Oven Stabilized Oscillator
DOC Series
OCXO / VCOCXO
Description:
2111 Comprehensive Drive
2111 Comprehensive Drive
Aurora, Illinois 60505
Aurora, Illinois 60505
Phone: 630- 851- 4722
Phone: 630- 851- 4722
Fax: 630- 851- 5040
Fax: 630- 851- 5040
www.conwin.com
www.conwin.com
US Headquarters:
630-851-4722
European Headquarters:
+353-61-472221
8
102 F
050
DOC .0 MHz
10
Connor-Winfield’s high stability DOC
series are exceptionally precise frequency
standards, excellent for use in cellular base
stations, test equipment, Synchronous
Ethernet and VSAT applications.
These true surface mount OCXO /
VCOCXO oscillators provide frequency
stabilities in the range of ±20 ppb to ±100
ppb, over the commercial, extended
commercial or the industrial temperature
range.
The DOC series is available with a CMOS
output and a Voltage Controlled Option.
These oscillators provide outstanding phase
noise characteristics that will meet the most
stringent requirements.
Features:
OCXO - Fixed Frequency
VCOCXO - Voltage Controlled Option
3.3 Vdc Operation
SMT Package
Frequency Stabilities Available:
±20 ppb, ±50 ppb or ±100 ppb
Temperature Ranges Available:
0 to 70°C, -20 to 75°, -40 to 85°C
or -40 to 70°C
Low Phase Noise
LVCMOS Output
Optional Electronic Frequency Tuning
RoHS Compliant / Lead Free
Package Outline
0.085
(2.16mm)
4
0.100
(2.54mm)
0.260
(6.60mm)
0.100
(2.54mm)
0.040
(1.02mm)
0.040
(1.02mm)
0.025
(0.64mm)
Top
View
0.085
(2.16mm)
3
Top
5 View 2
6
1
Keep
Out
Area
DNC = Do Not Connect
DNC
Bottom
View
Side
View
0.375
(9.52mm)
0.060
(1.52mm)
DNC
0.275
(6.99mm)
1
0.555
(14.1mm)
Suggested Pad Layout
0.060
(1.52mm)
0.307
(7.80mm)
1028
DOC050F
10.0 MHz
0.358
(9.1mm)
Dimensional Tolerance: +/-0.005 (0.127mm)
Attention: System Designers please review Application Note AN2093:
System Design Information and Printed Circuit Board Layout Guidelines for OCXO Oscillators.
@ www.conwin.com/technologies.html
Pad Connections
1: N/C or Voltage Control (Vc)
2: Do Not Connect*
3 Ground:
4: Output
5: Do Not Connect*
6: Supply Voltage (Vcc)
*DO NOT connect "DNC" pads to ground or supply rails.
Ordering Information
Bulletin
Page
Revision
Date
Cx207
1 of 4
20
19 Nov 2013
DOC
05
Oscillator
Type
Frequency
Stability
3.3 Vdc
LVCMOS Output
Surface Mount
OCXO
02 = ±20 ppb
05 = ±50 ppb
10 = ±100 ppb
25 = ±250 ppb
0
F
Temperature
Range
Voltage Control
Option
0 = 0 to 70°C
1 = -20 to 75°C
2 = -40 to 85°C
3 = -40 to 70°C
F = OCXO
(Fixed Freq.)
V = VCOCXO
(Voltage Controlled)
-010.0M
Output
Frequency
Frequency
Format
-xxx.xM Min.*
-xxx.xxxxxxM Max*
*Amount of
numbers after the
decimal point.
M = MHz
Example Part Numbers:
DOC050F-010.0M = 9x14mm package, ±50 ppb, 0 to 70°C, 3.3 Vdc, CMOS Output, OCXO, Output Frequency 10.0 MHz
DOC022V-020.0M = 9x14mm package, ±20 ppb, -40 to 85°C, 3.3 Vdc, CMOS Output, VCOCXO, 20.0 MHz
2111 Comprehensive Drive
Aurora, Illinois 60505
Phone: 630- 851- 4722
Fax: 630- 851- 5040
www.conwin.com
Absolute Maximum Ratings
Parameter
Storage Temperature
Supply Voltage - 3.3 Vdc (Vcc)
Control Voltage (Vc)
Minimum
-55
-0.5
-0.5
Nominal
-
-
-
Maximum
Units
Notes
Maximum
Units
Notes
ppb
ppb
ppb
1
1
1
125
4.5
Vcc+0.5
°C
Vdc
Vdc
Operating Specifications
Parameter
Minimum
Nominal
Center Frequency: (Fo)
10, 12.8, 19.44, 20, 25, 38.88, 40, 50 or 80
Frequency Stability vs. Change in Temperature: (See Ordering Information)
Stability Code 02
-20.0
-
20.0
Stability Code 05
-50.0
-
50.0
Stability Code 10
-100.0
-
100.0
Operating Temperature Range: (See Ordering Information)
Temperature Code 0
0
-
70
Temperature Code 1
-20
-
75
Temperature Code 2
-40
-
85
Temperature Code 3
-40
-
70
Frequency Calibration: -1.0
-
1.0
Frequency Stability vs Load -20
-
20
Frequency Stability vs Voltage
-20
-
20
Aging: Daily:
-10
-
10
Aging: First Year:
-300
-
300
Total Frequency Tolerance (20 Years)
-4.60
-
4.60
Supply Voltage: (Vcc) 3.13
3.30
3.47
Power Consumption: Vcc = Nominal Voltage
Commercial Temperature Range, 0 to 70 °C
Turn On
-
-
2.5
Steady State @ 25°C
-
-
1.1
Industrial Temperature Range, -40 to 85 °C
Turn On
-
-
3.0
Steady State @ 25°C
-
-
1.3
Phase Jitter: (BW: 12 KHz to Fo/2)
-
0.5
1.0
Short Term Stability
-
-
1.0E-9/s
Start-Up Time:
-
-
10
Warm Up Time (Within Specification @ 25°C)
-
-
60
Warm Up Time (Within Specification @ -40°C)
-
-
90
MHz
°C
°C
°C
°C
ppm ppb
ppb
ppb/day
ppb
ppm
Vdc
2
±5%
±5%
3
3
4
5
W
W
W
W
ps RMS
ms
s
s
CMOS Output Characteristics
Parameter
Load
Output Voltage:
Output Voltage: High (Voh)
Low (Vol)
Output Current: High (Ioh)
Low (Iol) Duty Cycle at 50% of Vcc Rise / Fall Time: 10% to 90% -
Minimum
Nominal
Maximum
Units
2.7
-
-
-
45
-
-
-
-
-
50
-
-
0.3
-4
4
55
6.5
V
V
mA
mA
%
ns
-
15
-
pF
Notes
6
Input Characteristics - Voltage Controlled Option
Parameter
Control Voltage Range:
Frequency Pullability:
Input Impedance
Linearity
Minimum
0.30
±10.0
100K
±5
Nominal
1.65
-
-
-
Maximum
3.00
-
-
-
Units
V
ppm
Ohms
%
Bulletin
Attention: System Designers please review Application Note AN2093:
System Design Information and Printed Circuit Board Layout Guidelines for OCXO Oscillators.
@ www.conwin.com/technologies.html
Specifications subject to change without notification. See Connor-Winfield's website for latest revision. All dimensions in inches.
© Copyright 2014 The Connor-Winfield Corporation Not intended for life support applications.
Page
Revision
Date
Notes
7
8
Cx207
2 of 4
20
19 Nov 2013
2111 Comprehensive Drive
Aurora, Illinois 60505
Phone: 630- 851- 4722
Fax: 630- 851- 5040
www.conwin.com
Parameter
@ 1 Hz offset
@ 10 Hz offset
@ 100 Hz offset
@ 1 KHz offset
@ 10 KHz offset
@ 100 KHz offset
Phase Noise Characteristics
Typical Phase Noise for DOC050F - 010.0M
Minimum
-
-
-
-
-
-
Nominal
-67
-100
-130
-148
-154
-155
Maximum
-
-
-
-
-
-
Units
dBC/Hz
dBC/Hz
dBC/Hz
dBC/Hz
dBC/Hz
dBC/Hz
Notes
Package Characteristics
DOC Package
Package consisting of a FR-4 substrate and Ryton-R-4 cover. Water Resistant package,
non-hermetic seal. (Engineering Properties of Ryton R-4 Application Note AN2100)
Environmental Characteristics
Shock
500 G’s 1ms, Halfsine, 3 shocks per direction, per MIL-STD 202G, Method 213B Test Condition D.
Sinusoidal Vibration 0.06” D.A. or 10G’s Peak, 10 to 500 Hz, per MIL-STD-202G, Method 204D, Test Condition A.
Random Vibration 5.35 G’s rms. 20 to 2000 Hz per MIL-STD-202G, Method 214,Test Condition 1A, 15 minutes each axis.
Moisture
10 cycles, 95% RH, Per MIL-STD-202G, Method 112.
Marking Permanency Per MIL-STD-202G, Method 215J.
Solder Process Recommendations: RoHS compliant, lead free. See solder profile on page 4.
In-line reflow: Refer to recommended reflow pre-heat and reflow temperatures on page 4. Package material consist of Ryton R-4 high temperature cover with FR4 substrate. Component solder is Pb free high
temperature eutectic alloy with a melting point of 221°C.|
In-line oven profile: We recommend using KIC profiler or similar device placing one of the thermocouples on the
device to insure that the internal package temperature does not exceed 221°C.
Removal of device: If for any reason the device needs to be removed from the board, use a temperature controlled
repair station with profile monitoring capabilities. Following a monitored profile will insure the
device is properly pre-heated prior to relow. Refer to IPC 610E for inspection guidelines.
Recommended Cleaning Process: (If required)
Device is non-hermetic, water resistance with four weep holes, one in each corner to allow moisture to be removed during the drying cycle. We recommend in-line warm water wash with air knife and drying capabilities. If cleaner does not have drying capability, then use hot air
circulated oven. Boards should be placed in the oven vertically for good water runoff
Device must be dried properly prior to use!
Note: If saponifier is used make sure the device is rinsed properly to insure all residues are removed. PH of saponifier should
not exceed 10.
Drying Temperature: Between 85 to 100°C.
Drying Time: Time will vary depending on the board size.
Caution: Do not submerge the device!
Notes:
1. Frequency stability vs. change in temperature. [±(Fmax - Fmin)/(2*Fo)].
2. Initial calibration @ 25°C. For OCXO with EFT, the control voltage must be fixed.
3. After 30 days of operation
4. Inclusive of calibration @ 25°C, frequency vs. change in temperature, change in supply voltage (±5%), load change (±5%), shock and vibration and 20 years aging
5. Minimum "Power On Time" after rail rises from 0 to within +/-5% of Vcc = 1 second. Vcc ramp rate must be <0.3 volts per millisecond.
6. Attention: To achieve optimal frequency stability, and in some cases to meet the specification stated on this data sheet, it is required that the circuit connected to this OCXO output must have the equivalent input capacitance that is specified by the nominal load capacitance. Deviations from the nominal load capacitance will have a graduated effect on the stability of approximately 20 ppb per pF load difference.
7. Positive slope. (Frequency increases as Vc voltage increases. To ensure proper operation of VCOCXO's, the control voltage input must be biased the nominal control voltage. Failure to bias the Vc input will cause an unstable output condition.
8. Referenced to Fo.
Attention: System Designers please review Application Note AN2093:
System Design Information and Printed Circuit Board Layout Guidelines for OCXO Oscillators.
@ www.conwin.com/technologies.html
Specifications subject to change without notification. See Connor-Winfield's website for latest revision. All dimensions in inches.
© Copyright 2014 The Connor-Winfield Corporation Not intended for life support applications.
Bulletin
Page
Revision
Date
Cx207
3 of 4
20
19 Nov 2013
2111 Comprehensive Drive
Aurora, Illinois 60505
Phone: 630- 851- 4722
Fax: 630- 851- 5040
www.conwin.com
CMOS Output Waveform
CMOS Test Circuit
DNC
Output
10uF
to
100 uF
0.01uF
2
DNC
Pad 1
OCXO = N/C
VCOCXO = Vc
15 pF
DNC = Do Not Connect
DO NOT connect "DNC" pads
to ground or supply rails.
1V/Div
Phase Noise Plot
RoHS Solder Profile
Typical phase noise plot for DOC050F-010.0M
Temperature
260°C
260°C
220°C
180°C
150°C
120°C
0
10 s
Up to 120 s
60 to 90 s
Typical
Typical
Meets IPC/JEDEC J-STD-020C
Tape and Reel Information
1028
DOC050F
10.0 MHZ
SM-MECH42
Bulletin
Attention: System Designers please review Application Note AN2093:
System Design Information and Printed Circuit Board Layout Guidelines for OCXO Oscillators.
@ www.conwin.com/technologies.html
Page
Revision
Date
Specifications subject to change without notification. See Connor-Winfield's website for latest revision. Not intended for life support applications.
All dimensions in inches. © Copyright 2013 The Connor-Winfield Corporation
Cx207
4 of 4
20
19 Nov 2013