CFPT9000
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SMD Temperature Compensated Crystal Oscillator (PLUTO)
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A series of surface mountable 7.0x5.0mm Temperature Compensated Voltage
Controlled Crystal Oscillators (TCVCXOs) for medium to high volume applications where
small size and high performance are prerequisites.
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Product description
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The CFPT9000 uses Rakon's proprietary ASIC 'Pluto™', a single chip oscillator and analogue
compensation circuit, capable of sub 0.2ppm performance over an extended temperature
range. Its ability to function down to a supply voltage of 2.4V and low power consumption
makes it particulary suitable for mobile applications.
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Applications
• Communications
• Other
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Features
• Sub 0.2ppm stability over extended temperature range
• Wide frequency range
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Specifications
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1.0
Line
1.1
1.2
1.3
1.4
SPECIFICATION REFERENCES
Parameter
Model description
Part number format
RoHS compliant
Package size
Description
CFPT9000
Exxxx(LF)(T), issue A (YYYY-MM-DD)
Yes, part numbers with suffix 'LF' (non-RoHS version available upon request)
7.0mm x 5.0 x 2.25 mm. Please select footprint version P1~P4 in model code builder (for
details see model drawings).
P1: 10 pad (default)
P2: 10 pad (inline)
P3: 8 pad
P4: 4 pad
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2.0
Line
2.1
2.2
2.3
2.4
2.5
2.6
2.7
FREQUENCY CHARACTERISTICS
Parameter
Nominal frequency
range
Frequency calibration
Reflow shift
Frequency stability
over temperature
Temperature range
Supply voltage
stability
Load sensitivity
Test Condition
Frequency range available (note 1)
Initial calibration @ 25°C
Measured
≥
60 minutes after reflow
Reference to (Fmax + Fmin)/2
Operating temperature range over which temperature stability is
measured (wider than -40 to 85°C available on request)
±10%
variation, reference to frequency at nominal supply voltage,
typical value
HCMOS, ACMOS:
±5pF
variation, clipped sinewave / sinewave:
±
10% variation, reference to frequency at nominal load, typical
value
First year,
≤
20MHz
First year, > 20MHz
10 years,
≤
20MHz
10 years, > 20MHz
Gamma vector, 3-axes, 30-1500Hz, typically less than...
Value
1.2 to 40
±1 max
±1 max
±0.2 to 2.5
-40 to 85
±0.2
±0.2
Unit
MHz
ppm
ppm
ppm
°C
ppm
ppm
2.8
2.9
2.10
2.11
2.12
Long term stability
Long term stability
Long term stability
Long term stability
Acceleration
sensitivity
±1 max
±2 max
±3 max
±5 max
2
ppm
ppm
ppm
ppm
ppb/g
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Page 1
3.0
Line
3.1
3.2
3.3
3.4
POWER SUPPLY
Parameter
Supply voltage
Current Clipped
Sinewave
Current Sinewave
Current HCMOS
typically: 1+frequency(MHz)*supply(V)*{load(pF)+15}*10⁻³mA
e.g 20MHz, 5V, 15pF = 4mA
Test Condition
Nominal supply voltage (±10%) to be specified as part of model
code
typically: 1+frequency(MHz)*1.2*{load(pF) +30}*10⁻³mA
8 max
Value
2.4 to 6
Unit
V
mA
mA
mA
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4.0
Line
4.1
4.2
4.3
4.4
4.5
4.6
4.7
4.8
4.9
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CONTROL VOLTAGE
Parameter
Control voltage range
Control voltage range
Control voltage range
Frequency tuning
(standard)
Frequency tuning
(standard)
Slope
Linearity
Port input impedance
Modulation bandwidth
Measured between control voltage and GND pin
Test Condition
Without reference voltage; Vs=5.0V
Without reference voltage; Vs=3.3V
With reference voltage (when specified as part of the model
code): 0 to Vref [V]
≤20MHz
(note 3)
>20MHz (note 3)
Positive
1 max
100 min
2 min
%
kΩ
kHz
±5 min
±7 min
Value
1.5 to 3.5
0.65 to
2.65
Unit
V
V
V
ppm
ppm
5.0
Line
5.1
5.2
5.3
5.4
OSCILLATOR OUTPUT - CLIPPED SINEWAVE
Parameter
Output waveform
Output voltage level
Output load
resistance
Output load
capacitance
Test Condition
AC coupled clipped sinewave
Peak to peak voltage
0.8 min
10
10
V
kΩ
pF
Value
Unit
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6.0
Line
6.1
6.2
6.3
6.4
6.5
OSCILLATOR OUTPUT - SINEWAVE
Parameter
Output waveform
Output voltage level
Output voltage level
Output load
resistance
Output load
capacitance
Test Condition
AC coupled sinewave
Peak to peak voltage
≤20MHz
Peak to peak voltage >20MHz
1 min
0.5 min
10
10
V
V
kΩ
pF
Value
Unit
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7.0
Line
7.1
7.2
7.3
7.4
7.5
7.6
7.7
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OSCILLATOR OUTPUT - HCMOS
Parameter
Output waveform
Output voltage level
low (VoL)
Output voltage level
high (VoH)
Rise and fall times
Rise and fall times
Duty cycle
Load
Measured with Vcc = 3.3V
Measured with Vcc = 5.0V
Measured at 50% level
Nominal
Test Condition
HCMOS (note ACMOS available upon request)
0.1 max
0.9 min
8 max
7 max
45 to 55
15
Vs
Vs
ns
ns
%
pF
Value
Unit
Page 2
8.0
Line
8.1
8.2
8.3
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TRISTATE CONTROL
Parameter
Output enabled
Output in tristate
mode
Note
Test Condition
Tristate control pin logic '1' (high) or open circuit
Tristate control pin logic '0' (low)
See note 2
Value
60 min
20 max
Unit
%Vs
%Vs
9.0
Line
9.1
PHASE NOISE
Parameter
SSB phase noise
power density at
1Hz offset
SSB phase noise
power density at
10Hz offset
SSB phase noise
power density at
100Hz offset
SSB phase noise
power density at
1kHz offset
SSB phase noise
power density at
10kHz offset
SSB phase noise
power density at
100kHz offset
Test Condition
Typical value for a 13MHz oscillator at 25°C
Value
-65
Unit
dBc/Hz
9.2
Typical value for a 13MHz oscillator at 25°C
-95
dBc/Hz
9.3
Typical value for a 13MHz oscillator at 25°C
-120
dBc/Hz
9.4
Typical value for a 13MHz oscillator at 25°C
-135
dBc/Hz
9.5
Typical value for a 13MHz oscillator at 25°C
-140
dBc/Hz
9.6
Typical value for a 13MHz oscillator at 25°C
-145
dBc/Hz
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10.0
Line
10.1
OTHER FEATURES
Parameter
Reference voltage,
Vref
Description
Optional reference voltage output (suitable for potentiometer supply or DAC reference) - see
model code builder. Note this option is available for package P1 only.
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11.0
Line
11.1
11.2
11.3
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ENVIRONMENTAL INFORMATION
Parameter
Shock
Vibration
Storage temperature
Description
IEC 60068-2-27, test Ea. 1500gn acceleration for 0.5ms duration, half sine pulse, 3 shocks in
each direction along three mutually perpendicular axes
IEC 60068-2-6, test Fc. 10-60Hz 1.5mm displacement, 60-2000Hz at 10gn, 30 minutes in
each of three mutually perpendicular axes at 1 octave per minute
-55°C to 125°C
12.0
Line
12.1
12.2
12.3
12.4
12.5
12.6
12.7
12.8
12.9
12.10
PIN CONNECTIONS (outline P1)
Parameter
Pin 1
Pin 2
Pin 3
Pin 4
Pin 5
Pin 6
Pin 7
Pin 8
Pin 9
Pin 10
Description
Vref* (optional, see section 10 above)
N/C
Do not connect
GND
Output
N/C
N/C
Tristate Control (Enable)* (note 2)
Supply Voltage, +Vs
Control Voltage, Vc (Frequency Adjust), or
Do not connect
(dependent on option selected as part of the model code)
*Leave unconnected if not required.
12.11
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Note
Page 3
13.0
Line
13.1
PIN CONNECTIONS (outline P2)
Parameter
Pin 1
Description
Control Voltage, Vc (Frequency Adjust), or
Do not connect
(dependent on option selected as part of the model code)
GND
Output
Supply Voltage, +Vs
The additional pads are internally connected, these can be soldered to floating pads but do not
connect to them.
13.2
13.3
13.4
13.5
Pin 2
Pin 3
Pin 4
Note
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14.0
Line
14.1
PIN CONNECTIONS (outline P3)
Parameter
Pin 1
Description
Control Voltage, Vc (Frequency Adjust), or
Do not connect
(dependent on option selected as part of the model code)
GND
Output
Supply Voltage, +Vs
Do not connect
Do not connect
N/C
Tri-state Control (Enable)* (note 2)
*Leave unconnected if not required.
14.2
14.3
14.4
14.5
14.6
14.7
14.8
14.9
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Pin 2
Pin 3
Pin 4
Pin T1
Pin T2
Pin T3
Pin T4
Note
15.0
Line
15.1
PIN CONNECTIONS (outline P4)
Parameter
Pin 1
Description
Control Voltage, Vc (Frequency Adjust), or
Do not connect
(dependent on option selected as part of the model code)
GND
Output
Supply Voltage, +Vs
15.2
15.3
15.4
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Pin 2
Pin 3
Pin 4
16.0
Line
16.1
16.2
16.3
MARKING
Parameter
Type
Line 1
Line 2
Description
Laser marked.
[ R X XX
] Rakon, manufacturing identifier (X XX).
[∆ 0000 YW] Pad 1 / static sensitivity identifier (∆), abbreviated part number (0000), device
date code (YW).
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17.0
Line
17.1
17.2
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MANUFACTURING INFORMATION
Parameter
Reflow Soldering
Packaging description
Description
See reflow profile diagram. Solderability: MIL-STD-202, method 208, category 3.
Quantities
≥
100 pieces will be supplied on tape & reel.
18.0
Line
18.1
18.2
NOTES
Parameter
Note 1
Note 2
Description
Frequency range available dependent on output type. HCMOS (& ACMOS): 1.25-40MHz,
sinewave: 10-40MHz, clipped sinewave: 10-40MHz.
The tristate control (enable) pin has a internal 100kΩ pull up resistor which allows the pin to
be left unconnected if not required. When in tristate mode, the output stage is disabled, but
the oscillator and compensation circuit are still active (current consumption typ.
≤
1.0mA).
Availability of tristate and the tristate control pin number will depend on the outline selected
(P1~P4). Alternative pin configurations may be available upon request - please contact the
sales office: sales@rakon.com.
Higher pulling may be available as a custom option depending on nominal frequency and
stabililty - please contact the sales office: sales@rakon.com.
18.3
Note 3
Page 4
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Page 5