VCC1
CMOS Crystal Oscillator
Vectrons VCC1 Crystal Oscillator (XO) is a quartz stabilized square wave generator with a CMOS output. The VCC1 uses a fundamental or 3rd
overtone crystal resulting in very low jitter performance, and a monolithic IC which improves reliability and reduces cost.
Ultra Low Jitter, Fundamental or 3rd OT Crystal Design
CMOS Output Crystal Oscillator
Output Frequencies from 1.024 MHz to 190.000 MHz
5.0, 3.3, 2.5 or 1.8 V Operation
Output Disable Feature
Excellent 20ppm temperature stability
-10/70°C , -40/85°C or -55/125°C operating temperature
Small Industry Standard Package, 5x7mm
Product is compliant to RoHS directive
and fully compatible with lead free assembly
Features Applications
Block Diagram
Description
VCC1
SONET/SDH/DWDM
Ethernet, GE, SynchE
Storage Area Networking
Fiber Channel
Digital Video
Broadband Access
Base Stations, Picocells
Driving A/D’s, D/As, FPGAs
Test and Measurement
COTS
Page1
VDD Output
GND
Oscillator
Crystal
E/D
Page2
Performance Specifi cations
Table 1. Electrical Performance, 5V Option
Parameter Symbol Minimum Typical Maximum Units
Supply
Voltage1VDD 4.5 5.0 5.5 V
Max Voltage -0.7 7 V
Current2
≤20.000MHz
20.001 to 50.000MHz
50.001 to 85.000MHz
85.001 to 125.000MHz
IDD
10
30
50
60
mA
Current, Output Disabled 30 uA
Frequency
Nominal Frequency3fN1.544 125.000 MHz
Stability4, (Ordering Option) ±20, ±25, ±32, ±50, ±100 ppm
Outputs
Output Logic Levels2
Output Logic High
Output Logic Low
Output Logic High Drive
Output Logic Low Drive
VOH
VOL
IOH
IOL
0.9*VDD
16
16
0.1*VDD
V
V
mA
mA
Load IOUT 15 pF
Output Rise /Fall Time2
<20.000MHz
20.000 to 50.000MHz
50.001 to 125.000MHz
tR/tF
8
5
2
ns
Output Leakage, Output Disabled IZ±10 uA
Duty Cycle2,5 45 50 55 %
Period Jitter6
RMS
Peak-Peak
фJ
2.5
18
ps
RMS Jitter, 12k-20MHz фJ 0.5 1 ps
Enable/Disable
Output Enable/Disable7
Output Enable
Output Disable
VIH
VIL
4.0
0.8
V
V
Disable time tD100 ns
Enable Internal Pull-Up Resistor 100 Kohm
Start-Up Time tSU 10 ms
Operating Temp, (Ordering Option) TOP -10/70, -40/85, -55/125 °C
1] The power supply should have by-pass capacitors as close to the supply and to ground as possible, for example 0.1 and 0.01uF
2] Parameters are tested with the test circuit shown in Figure 1.
3] See Standard Frequencies and Ordering Information tables for more specifi c information
4] Includes initial accuracy, operating temperature, supply voltage, shock and vibration (not under operation) and 10 years aging.
5] Duty Cycle is measured as On Time/Period, see Fig 2.
6] Broadband Period Jitter measured using a LeCroy Wavemaster 8600A, 90K samples, see Application Note for Typical Phase Noise and Jitter Performance
7] The Output is Enabled if the Enable/Disable is left open.
Page3
Performance Specifi cations
Table 2. Electrical Performance, 3.3V Option
Parameter Symbol Mininum Typical Maximum Units
Supply
Voltage1VDD 2.97 3.3 3.63 V
Maximum Voltage -0.5 5 V
Current2
≤20.000
20.001 to 50.000
50.001 to 85.000
85.001 to 190.000
IDD
7
20
30
50
mA
Current, Output Disabled 30 uA
Frequency
Nominal Frequency3fN1.544 190.000 MHz
Stability4, (Ordering Option) ±20, ±25, ±32, ±50, ±100 ppm
Outputs
Output Logic Levels2
Output Logic High
Output Logic Low
Output Logic High Drive
Output Logic Low Drive
VOH
VOL
IOH
IOL
0.9*VDD
8
8
0.1*VDD
V
V
mA
mA
Load IOUT 15 pF
Output Rise /Fall Time2
<20.000MHz
20.000 to 50.000MHz
50.001 to 90.000MHz
90.001 to 190.000MHz
tR/tF
6
4
3
2
ns
Output Leakage, Output Disabled2,5 IZ±10 uA
Duty Cycle2,5 45 50 55 %
Period Jitter6
RMS
Peak-Peak
фJ
2.5
18
ps
RMS Jitter, 12k-20M фJ 0.5 1 ps
Enable/Disable
Output Enable/Disable7
Output Enable
Output Disable
VIH
VIL
2.0
0.5
V
V
Disable time tD100 ns
Enable Internal Pull-Up Resistor 100 Kohm
Start-Up Time tSU 10 ms
Operating Temp, (Ordering Option) TOP -10/70, -40/85, -55/125 °C
1] The power supply should have by-pass capacitors as close to the supply and to ground as possible, for example 0.1 and 0.01uF
2] Parameters are tested with the test circuit shown in Figure 1.
3] See Standard Frequencies and Ordering Information tables for more specifi c information
4] Includes initial accuracy, operating temperature, supply voltage, shock and vibration (not under operation) and 10 years aging.
5] Duty Cycle is measured as On Time/Period, see Fig 2.
6] Broadband Period Jitter measured using a LeCroy Wavemaster 8600A, 90K samples, see Application Note for Typical Phase Noise and Jitter Performance
7] The Output is Enabled if the Enable/Disable is left open.
Page4
Performance Specifi cations
Table 3. Electrical Performance, 2.5V Option
Parameter Symbol Mininum Typical Maximum Units
Supply
Voltage1 VDD 2.25 2.5 2.75 V
Maximum Voltage -0.5 5 V
Current2
≤20.000MHz
20.001 to 50.000MHz
50.001 to 110.000MHz
110.001 to 190.000MHz
IDD
7
15
20
30
mA
Current, Output Disabled 30 uA
Frequency
Nominal Frequency3fN1.544 190.000 MHz
Stability4, (Ordering Option) ±20, ±25, ±32, ±50, ±100 ppm
Outputs
Output Logic Levels2,3
Output Logic High
Output Logic Low
Output Logic High Drive
Output Logic Low Drive
Output Logic High Drive5
Output Logic Low Drive5
VOH
VOL
IOH
IOL
0.9*VDD
4
4
8
8
0.1*VDD
V
V
mA
mA
mA
mA
Load IOUT 15 pF
Output Rise /Fall Time2
<20.000MHz
20.000 to 50.000MHz
50.001 to 90.000MHz
90.001 to 190.000MHz
tR/tF
10
6
3
2
ns
Output Leakage, Output Disabled ±10 uA
Duty Cycle2,6 45 50 55 %
Period Jitter7
RMS
Peak-Peak
фJ
2.5
18
ps
RMS Jitter, 12k-20MHz фJ 0.5 1 ps
Enable/Disable
Output Enable/Disable8
Output Enable
Output Disable
VIH
VIL
1.75
0.5
V
V
Disable time tD100 ns
Enable Internal Pull-Up Resistor 100 Kohm
Start-Up Time tSU 10 ms
Operating Temp, (Ordering Option) TOP -10/70, -40/85, -55/125 °C
1] The power supply should have by-pass capacitors as close to the supply and to ground as possible, for example 0.1 and 0.01uF
2] Parameters are tested with the test circuit shown in Figure 1.
3] See Standard Frequencies and Ordering Information tables for more specifi c information
4] Includes initial accuracy, operating temperature, supply voltage, shock and vibration (not under operation) and 10 years aging.
5] Duty Cycle is measured as On Time/Period, see Fig 2.
6] Broadband Period Jitter measured using a LeCroy Wavemaster 8600A, 90K samples, see Application Note for Typical Phase Noise and Jitter Performance
7] The Output is Enabled if the Enable/Disable is left open.
Page5
Performance Specifi cations
Table 4. Electrical Performance, 1.8V Option
Parameter Symbol Mininum Typical Maximum Units
Supply
Voltage1VDD 1.71 1.8 1.89 V
Maximum Voltage -0.5 3.6 V
Current2
≤20.000MHz
20.001 to 70.000MHz
70.001 to 96.000MHz
96.001 to 125.000MHz
125.001 to 172.000MHz
IDD
5
15
20
25
30
mA
Current, Output Disabled 30 uA
Frequency
Nominal Frequency3fN1.544 172.000 MHz
Stability4, (Ordering Option) ±20, ±25, ±32, ±50, ±100 ppm
Outputs
Output Logic Levels2,3
Output Logic High
Output Logic Low
Output Logic High Drive
Output Logic Low Drive
Output Logic High Drive5
Output Logic Low Drive5
VOH
VOL
IOH
IOL
IOH
IOL
0.9*VDD
2.8
2.8
8
8
0.1*VDD
V
V
mA
mA
Load IOUT 15 pF
Output Rise /Fall Time2
<20.000MHz
20.000 to 50.000MHz
50.001 to 90.000MHz
90.000 to 172.000MHz
tR/tF
4
4
3
2
ns
Output Leakage, Output Disabled IZ±10 uA
Duty Cycle2,6 45 50 55 %
Period Jitter7
RMS
Peak-{eak
фJ
2.5
18
ps
RMS Jitter, 12kHz-20MHz фJ 0.5 1 ps
Enable/Disable
Output Enable/Disable8
Output Enable
Output Disable
VIH
VIL
1.26
0.5
V
V
Disable time tD100 ns
Enable Internal Pull-Up Resistor 1 Mohm
Start-Up Time tSU 10 ms
Operating Temp, Ordering Option TOP -10/70, -40/85, -55/125 °C
1] The power supply should have by-pass capacitors as close to the supply and to ground as possible, for example 0.1 and 0.01uF
2] Parameters are tested with the test circuit shown in Figure 1.
3] See Standard Frequencies and Ordering Information tables for more specifi c information
4] Includes initial accuracy, operating temperature, supply voltage, shock and vibration (not under operation) and 10 years aging.
5] Duty Cycle is measured as On Time/Period, see Fig 2.
6] Broadband Period Jitter measured using a LeCroy Wavemaster 8600A, 90K samples, see Application Note for Typical Phase Noise and Jitter Performance
7] The Output is Enabled if the Enable/Disable is left open.
Page6
Test Diagram and Waveform
IDD
VDD 15pF
4
1 2
3
.1µF .01µF
+
+
tRtF
VOH
VOL
50%
On Time
Period
Fig 2: Waveform
Fig 1: Test Circuit
Outline Drawing & Pad Layout
Table 5. Pin Out
Pin Symbol Function
1 E/D Enable Disable
2 GND Case and Electrical Ground
3 Output Output
4VDD Power Supply Voltage
Part Number
Frequency
Date Code
VCC1-XXX
XXMXXX
Dimensions in mm
Recommended Soldering Pad Layout
Alternate Package Design
1.6±0.3
YYWW C
VCC1-XXX
XXMXXX
YYWW C
Page7
Typical Characteristics - Phase Noise and Gain Curve
Reliability
VI quali cation includes aging at various extreme temperatures, shock and vibration, temperature cycling, and IR re ow
simulation. The VCC1 family is capable of meeting the following quali cation tests:
Table 6. Environmental Compliance
Parameter Conditions
Mechanical Shock MIL-STD-883, Method 2002
Mechanical Vibration MIL-STD-883, Method 2007
Temperature Cycle MIL-STD-883, Method 1010
Solderability MIL-STD-883, Method 2003
Gross and Fine Leak MIL-STD-883, Method 1014
Resistance to Solvents MIL-STD-883, Method 2015
Moisture Sensitivity Level MSL 1
Contact Pads Gold over Nickel
Table 7. ESD Ratings
Model Minimum Conditions
Human Body Model 1500V MIL-STD-883, Method 3015
Charged Device Model 1000V JESD22-C101
Although ESD protection circuitry has been designed into the VCC1 proper precautions should be taken when handling
and mounting. VI employs a human body model (HBM) and a charged device model (CDM) for ESD susceptibility testing
and design protection evaluation.
Table 8. Absolute Maximum Ratings
Parameter Symbol Ratings Unit
Storage Temperature TS -55 to 125 °C
Soldering Temp/Time TLS 260 / 30 °C / sec
Stresses in excess of the absolute maximum ratings can permanently damage the device. Functional operation is not
implied at these or any other conditions in excess of conditions represented in the operational sections of this datasheet.
Exposure to absolute maximum ratings for extended periods may adversely a ect device reliability. Permanent damage is
also possible if E/D is applied before VDD.
Table 9. Refl ow Profi le
Parameter Symbol Value
PreHeat Time
Ts-min
Ts-max
tS60 sec Min, 260 sec Max
150°C
200°C
Ramp Up RUP 3 °C/sec Max
Time Above 217 °C tL60 sec Min, 150 sec Max
Time To Peak Temperature TAMB-P 480 sec Max
Time at 260 °C tP30 sec Max
Ramp Down RDN 6 °C/sec Max
Page8
Tape & Reel (EIA-481-2-A)
Table 10. Tape and Reel Information
Tape Dimensions (mm) Reel Dimensions (mm)
Dimension W F Do Po P1 A B C D N W1 W2 # Per
Reel
Tolerance Typ Typ Typ Typ Typ Typ Min Typ Min Min Typ Max
VCC1 16 7.5 1.5 4 8 180 2 13 21 60 17 21 1000
IR Refl ow
The VCC1 is quali ed to meet the JEDEC
standard for Pb-Free assembly. The
temperatures and time intervals listed
are based on the Pb-Free small body
requirements. The VCC1 device is
hermetically sealed so an aqueous wash is
not an issue.
Tape and Reel
Page9
Table 11. Standard Output Frequencies (MHz)
1.544 1.843 2.000 2.048 2.560 3.080 3.686 4.000 4.032 4.096
4.9152 5.000 6.000 6.176 7.3728 7.680 8.000 8.192 9.216 9.600
9.830 10.000 10.240 10.486 12.000 12.222 12.2725 12.288 12.352 12.500
12.544 12.624 12.729 12.800 12.81089 12.960 13.000 13.070 13.107 13.200
13.248 13.400 13.401 13.500 13.560 13.711 13.824 14.000 14.284 14.2848
14.285 14.318 14.31818 14.336 14.400 14.500 14.5152 14.720 14.736 14.745
14.746 15.000 15.211 15.360 15.555 15.625 15.748 15.74886 15.974 16.000
16.016 16.128 16.368 16.384 16.388 16.500 16.588 16.610 16.660 16.666
16.667 16.670 16.776 16.780 16.896 16.9344 17.000 17.0664 17.37476 17.408
17.600 17.664 17.734 17.73448 17.920 17.992 18.000 18.333 18.400 18.432
18.688 18.750 19.000 19.022 19.200 19.268 19.286 19.392 19.440 19.456
19.530 19.654 19.660 19.6608 19.752 19.774 19.872 19.968 20.000 20.00271
20.141 20.200 20.2752 20.480 20.516 20.712 20.736 20.769 20.7692 20.800
20.828 20.829 20.829 20.830 20.875 20.950 20.971 21.000 21.333 21.400
21.500 21.504 21.616 21.71055 21.711 22.000 22.118 22.174 22.184 22.217
22.500 22.579 22.5792 22.600 22.855 22.85568 23.000 23.040 23.732 24.000
24.431 24.444 24.540 24.545 24.5454 24.576 24.704 24.832 25.000 25.088
25.175 25.180 25.272 25.920 26.000 26.25641 26.664 26.6649 26.666 27.000
27.120 27.500 28.000 28.224 28.60489 28.636 28.63636 28.65645 28.672 28.800
29.000 29.265 29.491 29.49893 29.500 30.000 30.150 30.200 30.720 30.880
31.000 31.104 31.250 31.307 31.500 31.680 31.948 31.949 32.000 32.250
32.256 32.270 32.500 32.764 32.768 32.768 32.800 33.000 33.1776 33.300
33.333 33.792 33.810 33.860 33.8688 34.368 34.450 34.560 34.816 35.000
35.280 35.46895 35.500 35.600 35.840 35.984 36.000 36.500 36.666 36.860
36.864 36.923 37.000 37.056 37.140 37.376 37.500 37.643 38.000 38.3107
38.800 38.810 38.880 38.912 39.0625 39.497 39.9278 40.000 40.010 40.079
40.500 40.550 40.632 40.63232 40.920 40.960 41.472 41.500 41.657 41.660
41.670 41.750 41.895 41.931 42.000 42.400 42.500 42.620 43.000 43.560
44.000 44.137 44.236 44.250 44.267 44.330 44.434 44.539 44.732 44.736
44.928 45.000 45.135 45.158 45.818 46.080 46.232 46.2321 46.320 46.796
46.864 47.13333 47.16602 47.197 47.404 47.40437 48.000 48.33008 48.587 48.58736
48.600 48.81441 49.127 49.152 49.36221 49.408 49.512 49.58632 49.867 49.980
50.000 51.156 51.200 51.840 51.840 52.000 52.416 52.500 52.560 53.125
53.330 54.000 54.072 54.125 54.2174 54.500 55.000 55.289 55.500 56.000
56.064 56.446 56.448 56.666 57.272 57.344 57.600 57.800 58.000 58.250
58.320 58.982 58.982 59.000 60.000 60.480 61.000 61.250 61.440 62.000
62.208 62.500 62.800 63.000 63.8976 64.000 64.512 65.000 65.520 65.536
66.000 66.600 66.660 66.666 66.667 66.670 67.500 67.584 68.000 68.680
68.736 69.632 70.000 70.626 70.656 70.660 70.676 70.833 71.680 72.000
73.728 74.176 74.250 75.000 76.800 77.680 77.760 78.000 78.336 79.452
80.000 81.000 81.920 83.000 83.300 83.333 85.000 87.040 87.182 87.472
89.472 89.512 89.97804 90.000 91.008 92.000 95.000 96.000 97.776 98.304
100.000 102.400 103.680 104.000 106.250 110.000 112.500 114.000 115.200 116.640
120.000 125.000 125.010 127.000 128.000 133.000 135.000 144.600 150.000 155.520
156.250 157.000 166.000 167.000 189.000 190.000
Page10
Ordering Information
*Note: not all combination of options are available.
Other specifi cations may be available upon request.
Electrical Options:
3: Tri-state 45/55% Duty Cycle
The following codes are not recommended for new designs
0: No Tri-state, 40/60% Duty
1: Tri-state, 40/60% Duty
2: No tri-state, 45/55% Duty
5: Enable, 40/60% Duty
6: Enable, 45/55% Duty
Example: VCC1-B3B-125M000000
VCC1- B3B- xxMxxxxxxx
Frequency in MHz
Stability
A: ±100ppm over -10/70°C
B: ±50ppm over -10/70°C
C: ±100ppm over -40/85°C
D: ±50ppm over -40/85°C
E: ±25ppm over -10/70°C
F: ±25ppm over -40/85°C
K: ±32ppm over -10/70°C
O: ±32ppm over -40/85°C
P: ±100ppm over -55/125°C
R: ±50ppm over -55/125°C
Power Supply
A: +5.0 Vdc, 15pF
B: +3.3 Vdc, 15pF
C: +3.0 Vdc, 15pF
E: +5.0 Vdc, 50pF
F: +3.3 Vdc, 50pF
G: +2.5 Vdc, 15pF
H: +1.8 Vdc, 15pF
Product
5x7 Crystal Oscillator
VCC1-105-frequency = ±20ppm over -10/70°C, +5.0Vdc, 45/55% Duty Cycle, 15pF load
VCC1-103-frequency = ±20ppm over -10/70°C, +3.3Vdc, 45/55% Duty Cycle, 15pF load
VCC1-118-frequency = ±20ppm over -10/70°C, +2.5Vdc, 45/55% Duty Cycle, 15pF load
VCC1-119-frequency = ±20ppm over -10/70°C, +1.8Vdc, 45/55% Duty Cycle, 15pF load
20ppm Stability Ordering Information
* Add _SNPBDIP for tin lead solder dip
Example: VCC1-B3B-125M000000_SNPBDIP
Page11
Revision Date Approved Description
August 10, 2018 FB Update logo and contact information, add SNPBDIP ordering option
Revision History
Mouser Electronics
Authorized Distributor
Click to View Pricing, Inventory, Delivery & Lifecycle Information:
Vectron:
VCC1-B3C-50M000