OSCILLATOR PRODUCTS
CATALOG
O-20-A
Please visit our website
www.murata.com
Introduction and Standards..........................................................................................................1-4
RFQ Form/Quick Quote...................................................................................................................5
Part Numbering System ..................................................................................................................6
Temperature Compensating High Stability Crystal Oscillators ...........................................7–12
Voltage Controlled Oscillators...........................................................................................13–18
Ovenized Crystal Oscillators.............................................................................................19–25
Surface Mount Crystal Oscillators ....................................................................................26–28
Digitally Compensated Crystal Oscillators..............................................................................29
Microwave Oscillators – VCO...........................................................................................30–31
Phase Lock Loop Modules ...............................................................................................32–33
If you have any questions concerning Crystal Oscillator products
please contact:
Murata Electronics N.A., Inc.
State College Operations
1900 West College Avenue
State College, PA 16801-2799
Phone: 814-237-1431
Fax: 814-238-0490
CONTENTS
1
Precision Oscillators / Frequency Control Devices
Quality Control
Murata Electronics’ Quality
Control Department maintains
product quality at a level equal to
the company’s
high standards of
performance and workmanship,
which are certified to ISO-9001
and ISO-14000 requirements.
The department is vested
with the authority to exercise
control over every phase of
the manufacturing process.
This control extends from
incoming inspection of
purchased material to
in-process inspection,
inspection of final product,
packaging and shipping.
Product quality is guaranteed by our
Quality Assurance Program. Many
oscillators are custom designed to
meet your needs.
Standard oscillator design parameters are:
Storage Temperature: –55°C to +85°C
(to +125°C Optional)
Vibration: 10G’s, 10 to 500Hz
MIL-STD-202, Method 204
Shock: Test condition A
30g, 11msec., 1/2sine
MIL-STD-202, Method 213,
Test Condition J
Altitude: Sea Level to space per
MIL-STD-202, Method 105
Seal: MIL-STD-202, Method 112
Test Condition D
More stringent specification levels are
available. Consult our factory for details.
Other environmental conditions
encountered by oscillators should
be specified so that we may design
units to meet your requirements.
Such conditions would include soldering
profiles, board washing, exposure to
moisture, corrosive atmospheres,
solvents, etc.
Standard environmental tests are
conducted on site in the Corporate QA
laboratory. Specialized environmental
tests are conducted at independent
testing laboratories.
Environmental Testing
2
Introduction and Standards
Precision Oscillators / Frequency Control Devices
MURATA ELECTRONICS MANUFACTURES
A COMPLETE LINE OF OSCILLATORS
We are a volume producer of TTL, CMOS, ECL and Sine Wave Clock
Oscillators for the instrumentation and communication industries. Excellent
frequency stability is achieved with TCXO, Temperature Compensated
Crystal Oscillators and OCXO, Ovenized (Proportional Control) Crystal
Oscillators. Special requirements are met with VCXO, Voltage Controlled
Crystal Oscillators, which can be frequency modulated, with combinations
of the basic types such as the TC/VCXO or OC/VCXO. Murata has full-line
expertise from economy models to sophisticated, high stability, very low
phase noise oscillators that are used as standards for microwave
transmitters. Our oscillator production lines are closely monitored by
Quality Control through Incoming, In-Process and Final Inspections.
The Crystal Oscillators featured in this catalog are manufactured
exclusively at our manufacturing facility in State College, PA and are
designed to meet the requirements of most high technology market
applications today. However, oscillators can be custom designed to
meet your needs. Send us your specifications. We have full-line
capability backed by a well staffed engineering department. Murata
will assist you in defining your oscillator requirements and provide
the support to take your project from the conceptual stage through
implementation, including fast prototype turnaround.
OSCILLATOR TECHNICAL PERFORMANCE
If you have a formal specification, send us a copy for quotation. If not,
make a copy of our Specification and RFQ Form to help you specify an
oscillator to meet your requirements. Select those specifications relevant
to your application; cost increases as electrical and mechanical
requirements become more stringent. Murata Electronics will produce a
cost effective product which will meet all of your oscillator requirements.
Since tradeoffs exist in many instances, we are always happy to quote
options when cost/performance or cost/size tradeoffs exist.
Attach additional sheets to our specification sheet if necessary.
3
Introduction and Standards
Precision Oscillators / Frequency Control Devices
The following material briefly describes our in-house
standards and offers some cost/performance tradeoffs.
ENVIRONMENTAL CONDITIONS
See Page 1.
FREQUENCY RANGE
From less than 1Hz to 1GHz, Murata Electronics designs
typically center around the “AT” cut crystals,
but “SC,” “IT,” and other cuts are used for certain
applications. Fundamental mode crystals from 3MHz
and overtones from 5 to 400MHz are utilized in the
oscillators. This range is extended through the use of
dividers and multipliers. (Oscillators in the microwave
range are available through the Murata RF and
Microwave Products Group in State College,
Pennsylvania.)
FREQUENCY STABILITY
ls generally defined in two ways:
1.0 Total Frequency Stability – the maximum frequency
excursion from the nominal for all conditions. This is
usually expressed as a ± fraction centered at the
nominal frequency.
FREQUENCY STABILITY [ppm] f[Hz]
2.0 Specific Stabilities – fc[MHz]
2.1 Accuracy – the frequency setting tolerance at
room temperature at time of shipment.
Oscillators may incorporate external
adjustments for exact calibration. TCXO’s
typically exhibit a resolution of ±1pp 107. For
OCXO’s, the typical resolution is to ±1pp109.
2.2 Frequency Stability Versus Temperature – a
maximum change from the nominal frequency.
Oscillators relying on the temperature
characteristics of the “AT” crystal can be
designed to meet a stability requirement as
tight as ±10ppm from –10°C to +60°C. Tighter
stabilities to ±0.1ppm require temperature
compensation techniques. Ovenized oscillators
are used for stabilities to ±5pp 1010.
2.3 Frequency Stabilities Versus Supply Voltage
and Load Variation – these parameters may be
improved by the use of voltage regulation and
additional buffer stages. The tighter the stability
requirements, the more complex
the design.
2.4 Stability Versus Time – can be expressed over
periods of milliseconds to years. Through use
of high quality crystals typical aging rates of
±1ppm/year are achieved. For OCXO’s, it is
possible to achieve aging rates as low as
±5pp 1010 per day. Short term stability can be
expressed as an Allan Variance over a range
of gate times from less than 1msec to 10sec,
or in terms of SSB phase noise in the frequency
domain.
OUTPUT CHARACTERISTICS
Oscillator output waveforms are either sine or square
waves.
1.0 Sine Waves – outputs are specified by stating the
amplitude of the signal (mW or VRMS and the
nominal load impedance (typically) 50 ohms or
1K ohms).
Harmonic and Sub-Harmonic distortion less than –20dBc
is standard.
Deviations from the standards can be accommodated.
Consult our engineering department.
2.0 Square Wave*
TTL CMOS ECL
Logic “0” Level 0.4V Max. 1.0V Max. –1.89V
Logic “1” Level 2.4V Min. Vcc –1.0V –0.89
Symmetry 40/60 40/60 40/60
50 ohms
Load 10 Gates 50pF Max. to –2VDC
1Hz to 1Hz to 4.0MHz to
Freq. Range 100MHz 100MHz 700MHz
*Specify logic type to be driven
RELATIVE FREQUENCY STABILITY OF TYPICA L
CRYSTAL OSCILLATOR TYPES
+10ppm–
0–
–10ppm–
f/f
–40°C +20°C +80°C
Temperature
Uncompensated
“AT” Cut
Crystal Osc.
(XO)
Ovenized Crystal Oscillator
(OCXO) Analog Temp.
Compensation
(TCXO)
4
Introduction and Standards
Precision Oscillators / Frequency Control Devices
HP3048A
Carrier: 7.60385 MHz
INPUT POWER CHARACTERISTICS
Specification of input voltage and current parameters is
vital for the proper design of all oscillators. Voltage,
power limits and regulation should be specified for all
supplies available. If no regulation is listed, ±5% will be
assumed and a voltage regulation circuit incorporated if
needed. For ovenized oscillators, the oven input voltage
may differ from the oscillator input voltage.
PHASE NOISE
Phase noise, which is a measure of the short term
frequency fluctuations of the oscillator, is a critical
parameter and the limiting factor in the performance of
many systems.This is usually specified as the single
sideband power density in a 1Hz bandwidth at a
specified offset frequency from the carrier.
At Murata Electronics, we use a state-of-the-art
phase noise measurement system, which can
accurately characterize the phase noise of our
oscillators. This system has a noise floor
below–170dBc/Hz so that even the best
sources may be measured. A typical graph
produced by the HP3048A is shown.
VOLTAGE CONTROL/ VCXO
This capability allows the frequency of the oscillator to be
changed via an external control voltage. The three most
important parameters are:
1.0 Frequency Deviation – this is how far the center
frequency will change as a function of the control
voltage; usually specified in ±percentage or ppm. As
the deviation is made larger, other stabilities such as,
temperature and aging will usually degrade.
2.0 Linearity – the allowable error from the best straight
line. This can be interpreted in a number of ways.
Murata defines linearity per MIL-0-55310, as a
±percentage of the total deviation, for example:
a) control voltage of ±3VDC
b) de viation of ± .04% (400ppm)
c) linearity of ±5%
For a center frequency of 1.0MHz, the total deviation
of ±0.04% equals 800 ppm (800Hz). Line “A” shows
the ideal transfer function. Line “B” shows the upper
limit, which is 5% of the total deviation (0.05 x 800Hz)
above the nominal curve. Conversely, line “C” shows
the lower 5% limit. Line “D” shows a typical oscillator
which meets the 5% specification.
3.0 Response Slope – the slope of the frequency
versus the control voltage (i.e. for a negative
slope, the output frequency decreases as the
control voltage increases).
MECHANICAL SPECIFICATIONS
Mechanical Specifications are often unique to
your application, but standard sizes and tolerances
are ±0.030” for outer dimensions and ±0.010” to
±0.015” for pin spacing. Specify only those
dimensions that are critical and let us supply you
with a completed outline drawing.
The purpose of these standards is to help you define
specifications without over-designing.
10 100 1K 10K 100K
[Hz]
–3 –2 –1 0 +1 +2 +3
Voltage [V]
–60
–70
–80
–90
–100
–110
–120
–130
–140
–150
–160
–170
–180
fc+400
fc+200
fc=1,000,000
fc–200
fc–400
[dBc/Hz]
Frequency [Hz]
£(f) [dBc/Hz] vs f[Hz]
Line D
Line B +5%
Line C –5%
Line A
Note:
Frequency can also be controlled with a digital input signal (serial
or parallel) instead of an analog voltage. Consult the factory
for options.
5
Precision Oscillators / Frequency Control Devices
RFQ Form/Quick Quote
1. Copy on your copier OR 3. Dial (814) 237-1431 Fax (814) 237-1791
2. Send us your specifications 4. Ask for Crystal Oscillator Marketing or Customer Service
NAME ____________________________________________________ TITLE_________________________ DATE ____________
COMPANY ________________________________________________________________ DEPARTMENT____________________
STREET __________________________________________________ PHONE __________________ FAX/EMAIL ____________
CITY ____________________________________________________ STATE ________________________ ZIP ______________
Customer Specification Dwg. No. ________________________________________________________________________________
Frequency and Stability: Output Wave Form:
Frequency___________________________________________ Sine
Stability All Conditions _________________________________ Output Level ________________________________________
Stability @ 25°C ______________________________________ Harmonic Dist. ________________ Subs ________________
F___________ From_____________°C To_____________°C Spurious ___________________________________________
F___________ Vs B +___________________________ % Load ______________________________________________
F___________ Vs Time_____________________________ Square: PECL LVPECL
25°C Setting Tolerance_________________________________ TTL CMOS ECL CML
Frequency Adjustment _________________________________ Others___________________________________________
Power Supply: Rise Time Fall Time
OSC_____________ ± _____________ at _____________ mA Measured From _________________ to _________________
OSC_____________ ± _____________ at _____________ mA Duty Cycle _____________________ at_____________ level
Oven ____________ ± _____________ at _____________ mA _______________Levels: Logic “0” ______________ Logic “I”
Load:______________________________________________
Additional Comments: _________________________________________________________________________________________
___________________________________________________________________________________________________________
___________________________________________________________________________________________________________
Environmental: VCXO (Freq. Control) Characteristics:
Storage Temperature __________________________________ Freq. Deviation ______________________________________
Vibration ____________________________________________ Linearity ___________________________________________
Shock ______________________________________________ Control Voltage ______________________________________
Moisture ____________________________________________ Input Impedance_____________________________________
Seal _______________________________________________ Modulation Freq._____________________________________
Others______________________________________________ Response Slope _____________________________________
___________________________________________________ Special ____________________________________________
Mechanical:
Size________________________________________________ Finish _____________________________________________
Termination__________________________________________ Mounting ___________________________________________
Additions ___________________________________________________________________________________________________
___________________________________________________________________________________________________________
Special Notes: _______________________________________________________________________________________________
___________________________________________________________________________________________________________
Cost vs. Performance Trade Off:_________________________________________________________________________________
___________________________________________________________________________________________________________
Application: _________________________________________________________________________________________________
Estimated Annual Usage:_______________________________ Target Price: ________________________________________
6
Precision Oscillators / Frequency Control Devices
Part Numbering System
PART NUMBERING SYSTEM
TC 2100 C N –1000
OSCILLATOR TYPE BASE NO. INPUT VOLTAGE OUTPUT TYPE CODE
TC—TCXO XO—Crystal Oscillator See Chart Below See Chart Below Unique code
TV—TCVCXO VH—Hybrid VCXO assigned by
XH—Hybrid Crystal VO—VCXO factory
Oscillator OC—OCXO
TH—Hybrid TCXO
INPUT VOLTAGE (±5% TOLERANCE STANDARD)
A+5.0VDC
B+7.5VDC
C+10.0VDC
D+12.0VDC
E+15.0VDC
F+3.3VDC
G–5.0VDC
H–5.2VDC
J–12.0VDC
K–4.5VDC
L+4.0VDC
M(OTHER)
OUTPUT TYPE
TTTL
CCMOS
HHCMOS/TTL Compatible
EECL “10KH”
FECL “100K”
GSINE, 0dBm, 50LOAD
JSINE, +3dBm, 50LOAD
KSINE, +7dBm, 50LOAD
LSINE, +10dBm, 50LOAD
MSINE, +13dBm, 50LOAD
NCLIPPED SINE, 1Vp-p, 1kLOAD
P0dBm min., 50LOAD
UPECL
VLVPECL
ZCML
7
MODEL TC2268
10.00000MHz
15.0000MHz
16.000000MHz
Standard 16.384MHz
Frequencies:* 20.000000MHz
21.056700MHz
30.00000MHz
32.000MHz
±3.0ppm worst case for first year
Stability: product lifetime
All Conditions: ±5.0ppm worst case for 10 year
product lifetime
Operating Temp.
Range: 0°C to +85°C
Frequency ±1ppm min.
Deviation:
–74dBc @ 10Hz
Phase Noise: –104dBc @ 100Hz
–130dBc @ 1KHz
–140dBc @ ≥10KHz
Power Consumption Ranges from 2mA to 20mA
for 5VDC ± 5%: maximum at +25°C
*Possible frequency range of 5MHz to 50MHz.
Consult factory for other available frequencies.
TC2268–
A = +5.0V H = HCMOS Code assigned by factory
F = +3.3V G = SINE, 0dBm,
50 Ohm Load
N = CLIPPED SINE, 1 Vp-p,
1K Ohm Load
Precision Oscillators / Frequency Control Devices
Temperature Compensating High Stability Crystal Oscillators
SURFACE MOUNT TCXO SERIES – TC2268
FEATURES
■Meets or exceeds Stratum 3
■Sine, Clipped Sine Wave or CMOS output
■SMT packaging
APPLICATIONS
■Telecom clock
■Communications
■Wireless
PART NUMBERING SYSTEM – TC2268
SPECIFICATIONS
*Possible frequency range of 5MHz to 50MHz.
Consult factory for other available frequencies.
TC2268
Dimensions: mm
TC2268AN-3000
30.000000 MHz
SXX
Ink Stamp
Model Number
Frequency
Pin #1
Date Code
17.78 ± 0.25
11.81 ± 0.25
5.84 ± 0.5
Recommend Ground
Conductor in Open Space
Thermal
Breaks for
Grounding
Pad
7.62
2.03–4 Plcs.
9.53
19.05
3.81
3.56–4 Plcs.
Ref. Only–
4 Plcs.
0.25 min.
19.1 ± 0.1
PIN FUNCTION
1 N/C
2 Ground
3 Output Signal
4 Supply Voltage
RECOMMENDED PAD LAYOUT
1
8
Precision Oscillators / Frequency Control Devices
Temperature Compensating High Stability Crystal Oscillators
THRU HOLE TCXO SERIES – TC2110
TC2110–
A = +5.0V H = HCMOS Code assigned by factory
G = SINE, 0dBm,
50 Ohm Load
FEATURES
■Sine Wave and HCMOS compatible outputs
■4 Pin dip
APPLICATIONS
■Telecom clock
■Instrumentation
■Navigation
■Communications
PART NUMBERING SYSTEM – TC2110
SPECIFICATIONS
MODEL TC2110
3.577149MHz
8.192MHz
Standard 9.600MHz
Frequencies:* 10.000MHz
19.600MHz
27.00000MHz
Aging: ±1.0ppm per year worst case
Operating Temp.
Range: –20°C to +70°C
Frequency vs. ±1ppm maximum
Temperature:
Mechanical Frequency ±5ppm minimum
Adjustment:
Power Consumption 25mA maximum at +25°C
for 5VDC ± 5%:
*Consult factory for other available frequencies.
TC2110
0.76 Dia.
—
4 Plcs
7.4
15.24 max.
25.4 17.78
17.78
25.4
OUT
GND GND
B+ Freq. Adj.
Access
Top Surface
Ref. Only
—
4 Plcs
Dimensions: mm
1
9
Precision Oscillators / Frequency Control Devices
Temperature Compensating High Stability Crystal Oscillators
THRU HOLE TCXO SERIES – TC2178
TC2178–
A = +5.0V H = HCMOS Code assigned by factory
D = +12.0V G = SINE, 0dBm,
50 Ohm Load
J = SINE, +3dBm, 50 Ohm Load
N = CLIPPED SINE, 1 Vp-p, 1K Ohm Load
FEATURES
■Sine, clipped SINE wave, HCMOS compatible output
■3 pin dip
APPLICATIONS
■Telecom clock
■Communications
■Wireless
■Instrumentation
PART NUMBERING SYSTEM – TC2178
SPECIFICATIONS
MODEL TC2178
6.144MHz
9.600MHz
10.000000MHz
12.8000MHz
13.5168MHz
15.360000MHz
Standard 16.000MHz
Frequencies:* 16.384MHz
19.5000MHz
24.00000MHz
25.00000MHz
32.000MHz
39.300MHz
44.950MHz
44.952MHz
128.000000MHz
Stability: ±5ppm worst case per 10 year
All Conditions: product lifetime
Widest Operating
Temp. Range: 0°C to +85°C
Electrical Frequency ±6ppm
Deviation: minimum
Mechanical Frequency ±5ppm
Adjustment: minimum
Control Voltage –4.5VDC to +4.5VDC
Range:
–60dBc @ 1Hz
Phase Noise: –90dBc @ 10Hz
–110dBc @ 100Hz
–130dBc @ ≥1KHz
Power Consumption 2mA to 50mA
for +5VDC Supply: typical at +25°C
*Possible frequency range of 5MHz to 155.52MHz.
Consult factory for other available frequencies.
TC2178
Dimensions: mm
0.51 Dia.
6.35 min.
18.3 ± 0.76
11.71 ± 0.76
9.0 ± 0.76
4.0 ± 0.51
7.5 ± 0.38
15.0 ± 0.38
4.0 ± 1.0
1.0 ± 0.25
2.31 ± 0.25
PIN FUNCTION
1 Common and Case
2 Output
3 +Vcc
1
10
Precision Oscillators / Frequency Control Devices
MODEL TC2378
Standard 155.520000MHz
Frequencies:* 622.080MHz
Stability ±4.6ppm worst case per 10 years
All Conditions: of product lifetime
Operating Temp.
Range: 0°C to +70°C
Frequency ±0.5ppm max.
Accuracy: at 25°C
Jitter: 30psec p-p max.
Power Consumption
+5VDC Supply: 20mA maximum
+3.3VDC Supply: 70mA maximum
Frequency Vs ±5%
Supply Variation: ±0.1ppm
24 Hr. Holdover 0.37ppm maximum (includes up to 20°C
Stability: temperature drift and aging)
*Consult factory for other available frequencies.
Date Code
Location,
Week & Year
25.4
38.862 max.
Ref. Only
—
5 Plcs
3.048 min.
13.462 max.
1.016
—
5 Plcs
0.635 max.
25.412.7
6.35
12.7
Metal Standoffs
—
4 Plcs
Murata
155.520000 MHz
TC2378FV- A199
SXX
S/N
Frequency
Serial Number
Murata P art Number
38.862 max.
Temperature Compensating High Stability Crystal Oscillators
THRU HOLE TCXO SERIES – TC2378
TC2378–
F = +3.3V V = LVPECL Code assigned by factory
PART NUMBERING SYSTEM – TC2378
FEATURES
■Meets or exceeds Stratum 3 requirements
■LVPECL (100EL series compatible)
APPLICATIONS
■Telecom clock
SPECIFICATIONS TC2378
PIN FUNCTION
1 +3.3VDC
2 Output 1
3 Output 2
4 RF & Case Ground
5 +5VDC
Dimensions: mm
1
11
Precision Oscillators / Frequency Control DevicesPrecision Oscillators / Frequency Control Devices
TV2178–
A = +5.0VDC H = HCMOS Code assigned by factory
G = SINE, 0dBm,
50 Ohm Load
J = SINE, +3dBm, 50 Ohm Load
N = CLIPPED SINE, 1 Vp-p, 1K Ohm Load
Temperature Compensating High Stability Crystal Oscillators
TC/VCXO SERIES – TV2178
FEATURES
■Meets or exceeds Stratum 4
■Sine, Clipped SINE and HCMOS compatible outputs
■4 pin dip
APPLICATIONS
■Telecom clock
■Wireless communications
■Instrumentation
PART NUMBERING SYSTEM – TV2178
SPECIFICATIONS
MODEL TV2178
10.000000MHz
12.000000MHz
12.800000MHz
14.40000MHz
Standard 15.000MHz
Frequencies:* 15.3600MHz
16.384000MHz
19.6608MHz
20.000000MHz
35.000MHz
100.000000MHz
Stability ±5ppm worst case per 10 years
All Conditions: of product lifetime
Operating Temp.
Range: –40°C to +85°C
Frequency ±10ppm min. to
Deviation: ±40ppm maximum
Mechanical Frequency ±5ppm
Adjustment: minimum
Control Voltage –4.5VDC to +4.5VDC
Range:
–60dBc @ 1Hz
Phase Noise: –90dBc @ 10Hz
–110dBc @ 100Hz
–130dBc @ ≥1KHz
Power Consumption 2mA to 25mA
for +5VDC Supply: typical at +25°C
*Possible frequency range of 5MHz to 155.52MHz.
Consult factory for other available frequencies.
TV2178
Dimensions: mm
18.29 ± 0.76
11.71 ± 0.76
9.00 ± 0.76
4.00 ± 0.51
0.51 Dia.
7.50 ± 0.38
15.01 ± 0.38
6.35 min.
1.00 ± 0.25
4.0 ± 1.0
PIN FUNCTION
1 Common and Case
2 Output
3 +Vcc
4 +Vc Input
2.31 ± 0.25
1
12
Precision Oscillators / Frequency Control Devices
24
27.94
35.56 max.
22.86 max.
1.25 max.
0.46 ± .076 — 24 Plcs
2.54 ± .127 Typ.
Standoffs — 4 Plcs
Ref Only — 4 Plcs
12.7 max.
15.24
6.35
Dimensions: mm
100K ECL COMPLEMENTARY OUTPUT CHARACTERISTICS
PIN FUNCTION
1 VC Control Volt.
2,8,10,12 Case/Gnd
9VS2 Supply
Volt. (+12V)
11 VS1 Supply
Volt. (–4.5V)
14 Output Signal
16 Complementary
Output Signal
13,15,17 Case/Gnd
Others N/C
Ch. 1 = 200.0 mVolts/div
Delta V = 768.75 mVolts
Timebase = 750 ps/div
TV2363-1
17.7900 ns 21.5400 ns 25.2900 ns
Temperature Compensating High Stability Crystal Oscillators
TC/VCXO SERIES – TV2363
TV2363–
D = +12.0V F = ECL Code assigned by factory
FEATURES
■Meets or exceeds SONET minimum clock requirements
■100K ECL compatible output
■24 Pin DIP
APPLICATIONS
■Telecom clock
■OC-3
PART NUMBERING SYSTEM – TV2363
SPECIFICATIONS
MODEL TV2363
Standard
Frequencies:* 155.520MHz
Stability ±15ppm worst case for 20 year
All Conditions: product lifetime
Operating Temp.
Range: –40°C to +85°C
Frequency ±40ppm min. to
Deviation: ±60ppm maximum
Control Voltage –8VDC to +8VDC
Range:
VCXO Modulation DC to 1.4KHz
Bandwidth:
Jitter: 64psec p-p maximum
Aging: ±15ppm per 20 years
Power Consumption
–4.5VDC Supply: 50mA maximum at +25°C
+12VDC Supply: 20mA maximum at +25°C
*Consult factory for other available frequencies.
TV2363
2
13
Precision Oscillators / Frequency Control Devices
Voltage Controlled Oscillators
SURFACE MOUNT VCXO FOR SONET – VH2211
MODEL VH2211
Standard 622.0800MHz
Frequencies:* 666.514286MHz (15/14 of 622.0800MHz)
Stability ±20ppm worst case for
All Conditions: 20 year lifetime
Operating Temp.
Range: 0°C to +85°C
Control Voltage
Range: 0.5 to 4.5VDC
Modulation Bandwidth: 100KHz minimum
Modulation Gain: 19.4ppm/V ≤Kv ≤29.0ppm/V
Jitter: .001 UI max.
–60dBc @ 100Hz
Phase Noise: –90dBc @ 1KHz
–110dBc @ 10KHz
–125dBc @ ≥100KHz
Electrical Tuning: ±40ppm to ±60ppm
Power Consumption
for +5.0VDC Supply: 50mA maximum
Sub-Harmonics –45dBc maximum
*Consult factory for other available frequencies.
FEATURES
■Meets or exceeds SONET minimum clock requirements
■CML, PECL or LVPECL output
■SMT packaging
■Available tape and reel
■Reflow solderable
■Very low jitter
■Low aging
■Tightly controlled Kv for PLL
APPLICATIONS
■OC-12, OC-48, OC-192 and OC-768
■Forward error correction frequencies available
SPECIFICATIONS
VH2211–
A = +5.0V F = ECL Code assigned by factory
H = –5.2V V = PECL
F = +3.3V Z = CML
PART NUMBERING SYSTEM – VH2211
VH2211
1.727
1.016 15.24
PIN 1 Locater
Ink Mark
Ref. only
14 Plcs
2.54 typ.
30.48
25.4
Date Code
Murata P art Number
VH2211AZ- A202
622.0800 MHz
YYWW 4-Digit Serial Number
Frequency
0.889
4.953
1.702
PIN FUNCTION
1 Control Voltage
2,4,5,6,7
10,11,13,15 Ground
8,9 Missing
3Supply
Voltage (+5.0V)
12 Output Signal Q
14 Output Signal /Q
16 Disable
Dimensions: mm
2
14
Precision Oscillators / Frequency Control Devices
Voltage Controlled Oscillators
SURFACE MOUNT VCXO FOR SONET – VO2246
MODEL V02246
Standard 155.520000MHz
Frequencies:* 166.628500MHz
Stability ±20ppm worst case over
All Conditions: 20 year product lifetime
Operating Temp.
Range: 0°C to 70°C
Jitter: .001 UI RMS max.
–80dBc @ 100Hz
Phase Noise: –110dBc @ 1KHz
–135dBc @ 10KHz
–140dBc @ ≥100KHz
Power
Consumption: 65mA typical at +25°C
*Consult factory for other available frequencies.
FEATURES
■
Inverted Mesa, AT cut fundamental mode crystal technology
■ECL, PECL or LVPECL compatible output
■Meets or exceeds SONET minimum clock requirements
■SMT packaging
■Available tape and reel
■Reflow solderable
■Very low jitter
■Low aging
■No subharmonics
APPLICATIONS
■Telecom clock
■Forward error correction frequencies
SPECIFICATIONS
VO2246 –
A = +5.0V F = 100K ECL Code assigned by factory
H = –5.2V U = PECL
F = +3.3 V = LVPECL
PART NUMBERING SYSTEM – VO2246
VO2246
2.032
3.556
Ref. Only
—
6 Plcs
1.016
5.08
1.448
2.54
8.89 Date Code
Location,
Week & Year
VO2246HF- A213
155.520000 MHz
SXX
Frequency
Pin 1 Location
Murata P art Number
13.97
5.512 max.
0.711
1.676
PIN FUNCTION
1 N/C
2 N/C
3 Supply Voltage
4 Q Output
5 /Q Output
6 Ground
Dimensions: mm
2
15
Precision Oscillators / Frequency Control Devices
Voltage Controlled Oscillators
SURFACE MOUNT VCXO FOR SONET – VO2268
MODEL V02268
Standard 32.000000MHz
Frequencies:* 39.3216MHz
Stability ±40ppm worst
All Conditions: case
Operating Temp.
Range: –40°C to 85°C
Frequency ±40ppm min. over full
Deviation: tuning voltage range
Control Voltage +0.5VDC ≤VC ≤+4.5VDC
Range:
Jitter: 50 psec p-p max.
–80dBc @ 10Hz
–110dBc @ 100Hz
Phase Noise: –130dBc @ 1KHz
–140dBc @ 10KHz
–140dBc @ 100KHz
–140dBc @ 100KHz
Power Consumption
for +5V Supply: 20mA typical at +25°C
*Consult factory for other available frequencies.
FEATURES
■SINE, 0dBm, 50Ohm load
■SMT packaging
■Available tape and reel
■Reflow solderable
■Very low jitter
■Low aging
APPLICATIONS
■Telecom clock
■Wireless communication
■Instrumentation
SPECIFICATIONS
VO2268 –
A = +5.0V G = SINE, 0dBm, Code assigned by factory
50 Ohm Load
PART NUMBERING SYSTEM – VO2268
VO2268
Dimensions: mm
PIN FUNCTION
1 EFC
2 Ground
3 Output Signal
4 Supply Voltage
VO2268AG-3200
32.000 MHz
SXX
Ink Stamp
Frequency
Pin #1
Date Code
17.78 ± 0.25
11.78 ± 0.25
5.84 ± 0.5
Ref. Only–
4 Plcs.
0.25 min.
19.1 ± 0.1
2.62 typ.
1.73 typ.
4.62 typ.
1.63 typ.
2
16
Precision Oscillators / Frequency Control Devices
155.520000 MHz
VO2286AV-A204
SXX
S/N
5.715 max.
Ref. Only– 6 Plcs.
15.24
0.508
1.727
0.711
Pin #1
20.574 max.
13.843 max.
Frequency
Date Code
Location, Month & Year
Murata
Part Number
Serial Number
1.727
12.7
2.54 2.54
Voltage Controlled Oscillators
SURFACE MOUNT VCXO FOR SONET – VO2286
MODEL V02286
Standard 155.520000MHz
Frequencies:* 166.628571MHz
Stability ±35ppm worst case for
All Conditions: 20 year product lifetime
Operating Temp.
Range: 0°C to 85°C
Control Voltage 0.0 to 5.0VDC
Range:
Modulation DC to 50KHz
Bandwidth:
Modulation 45ppm/V ≥Kv ≥28ppm/V
Sensitivity: (others upon request)
Jitter: .001 UI max.
Electrical ±50ppm ≤Freq. Deviation ≤±125ppm
Tuning:
Power
Consumption: 10mA to 65mA
*Consult factory for other available frequencies.
FEATURES
■Meets or exceeds SONET Stratum 4 requirements
■
Inverted Mesa, AT cut fundamental mode crystal technology
■ECL, PECL, LVPECL and CML compatible output
■SMT packaging
■Available tape and reel
■Reflow solderable
■Very low jitter
■Low aging
■FEC frequencies available
■No subharmonics
APPLICATIONS
■OC-3
■Clock recovery PLL
SPECIFICATIONS
VO2286 –
A = +5.0V F = ECL Code assigned by factory
H = –5.2V U = PECL
F = +3.3V V = LVPECL
Z = CML
PART NUMBERING SYSTEM – VO2286
VO2286
PIN FUNCTION
1 Vc Control Voltage
6 Disable
7 Ground
9 Output Signal
10 Complementary
Output
14 Vs Supply Voltage
Dimensions: mm
2
17
Precision Oscillators / Frequency Control Devices
Voltage Controlled Oscillators
THRU HOLE VCXO FOR SONET – VH1011
33.02
25.4
17.78 max.
8.89
4.318 max.
VH1011AV-A186
622.0800MHz
25.4
0.381 x 0.254 x 0.051 (16 Plcs.)
Pin 1 locater
ink mark
Date Code & Serial No:
YYWW+4digit SN
MODEL VH1011
Standard 622.080MHz
666.514286MHz (622.080MHz 15/14)
Frequencies:* 669.3265MHz
Stability ±20ppm over
All Conditions: 10 year product lifetime
Operating Temp.
Range: 0°C to 85°C
Frequency ±40ppm to ±60ppm
Deviation:
Control Voltage –4.5VDC ≤VC ≤–0.5VDC
Range:
Modulation 100KHz minimum
Bandwidth:
Modulation 19.4ppm/V ≤Kv ≤29.0ppm/V
Sensitivity:
–60dBc @ 100Hz
Phase Noise: –90dBc @ 1KHz
–110dBc @ 10KHz
–125dBc @ ≥100KHz
Power Consumption
for –5VDC Supply: 65mA maximum
Sub-harmonics: –35dBc maximum
*Consult factory for other available frequencies.
FEATURES
■Meets or exceeds SONET minimum clock requirements
■100K ECL, PECL compatible
■16 pin gullwing packaging
■Very low jitter
■Low aging
■Tightly controlled Kv for PLL
APPLICATIONS
■OC-12, OC-48, OC-192 and OC-768
■Forward error correction frequencies available
SPECIFICATIONS
VH1011 –
A = +5.0V F = ECL Code assigned by factory
H = –5.2V U = PECL
F = +3.3V V = LVPECL
Z = CML
PART NUMBERING SYSTEM – VH1011
VH1011
PIN FUNCTION
1 Control Voltage
8, 9 Supply Voltage +5.0V
14 Output Signal
12 Complementary Output
2-7,10 Ground
Dimensions: mm
2
18
Precision Oscillators / Frequency Control Devices
Voltage Controlled Oscillators
THRU HOLE VCXO FOR SONET – VO2386
MODEL V02386
Standard 155.520000MHz
Frequencies:*
Stability ±35ppm worst case over
All Conditions: 20 year product lifetime
Operating Temp.
Range: 0°C to 85°C
Control Voltage 0.0VDC to 5.25VDC
Range:
Modulation DC to 50 KHz
Bandwidth:
Modulation 28ppm/V ≤Kv ≤45ppm/V
Sensitivity: (other deviation upon request)
Electrical ±50ppm minimum to ±125ppm maximum
Tuning: (others are available upon request)
Jitter: .001 UI RMS max.
Power Consumption
for +5VDC Supply: 10mA to 65mA typical at +25°C
*Consult factory for other available frequencies.
FEATURES
■Meets or exceeds Stratum 4 requirements
■
Inverted Mesa, AT cut fundamental mode crystal technology
■ECL, PECL, LVPECL and CML compatible output
■DIP packaging
■Very low jitter
■Low aging
■FEC frequencies available
■No subharmonics
APPLICATIONS
■Telecom clock
■Forward correction code applications
SPECIFICATIONS
VO2386 –
A = +5.0V U = PECL Code assigned by factory
H = –5.2V F = ECL 100K
F = +3.3V V = LVPECL
Z = CML
PART NUMBERING SYSTEM – VO2386
VO2386
PIN FUNCTION
1 EFC
2 Ground
3 Output Signal
4 Supply Voltage
PIN FUNCTION
1V
C, Control Voltage
7 Ground, Case/Ground
8Q
1Output Signal
9Q
2Complementary Output Signal
14 VCC
Dimensions: mm
5.1 max.
.6 .018
5.8
15.2
7.6 13.2 max.
20.6 max.
3
19
Precision Oscillators / Frequency Control Devices
Ovenized Crystal Oscillators
SURFACE MOUNT – OC3125
MODEL OC3125
Standard 77.760000MHz
Frequencies:*
Stability ±4.6ppm maximum for
All Conditions: 10 year product lifetime
Operating Temp.
Range: 0°C to 70°C
Frequency ±0.5ppm maximum at 25°C
Tolerance:
Supply Voltage +3.3VDC ± 5%
Range:
Jitter: 0.001 UI
Warm-up: ±0.20ppm of 2-hour frequency
after 3 minutes maximum
Allan
Variance: 1x10–9 for = 1 sec
Power Consumption 1.15A max. for 3 minutes max. for
+3.3VDC Supply: warmup at +25°C 300mA typical at +25°C
*Consult factory for other available frequencies.
FEATURES
■Meets or exceeds Stratum 3 requirements
■LVPECL output
■Hermetic surface mount packaging
■+3.3V supply
APPLICATIONS
■Telecom clock
SPECIFICATIONS
OC3125 –
F = +3.3 V = LVPECL Code assigned by factory
PART NUMBERING SYSTEM – OC3125
OC3125
Serial Number
12.7
8.89
17.78
24.003
Murata Part
Number
Frequency
Date Code
Location, Week
and Year
MURATA
77.760000 MHz
OC3125FV-A200
SXX
S/N
0.406 12.7 max.
.047 RAD
3 Plcs
5.08
Ref. Only — 7 Plcs
21.996
PIN FUNCTION
1 N/C
2 N/C
3 + VDC
4 Output
5 Complementary
6 N/C
7 RF & Case Gnd.
3
20
Precision Oscillators / Frequency Control Devices
Ovenized Crystal Oscillators
THRU HOLE – OCXO – OC2541
TYPICAL PHASE NOISE CHARACTERISTICS –
OC2541-DT
[hp] 3048A Carrier: 10.E + 6Hz
10 100 1k 10k
f [Hz]
–100
–110
–120
–130
–140
–150
–160
(f) [dBc/Hz]
OC2541
Dimensions: mm
22.86
10.16 10.16
0.635
35.3 ± 0.5
26.0 max.
0.8 ± 0.1
6.3 max.
20.327.0 ± 0.5
25.4
5.1
5.1
2.54 Ref. Only — 8 Plcs
Freq. Adjust
MODEL OC2541
Standard 10.000MHz
Frequencies:*
Stability
All Conditions: ±0.1ppm/year
Operating Temp.
Range: 0°C to 50°C
Frequency
Deviation: ±1.0ppm maximum
Frequency vs ±0.02ppm maximum
Temperature:
Control Voltage 0VDC to +6VDC
Range:
Modulation DC to 150Hz minimum
Bandwidth:
Warm-up: ±0.1ppm typical after
3 minutes at 25°C
–123dBc @ 100Hz
Phase Noise: –135dBc @ 1KHz
–140dBc @ ≥10KHz
Electrical Tuning: ±1ppm minimum
Harmonic Distortion
Sine Wave Output Only: –20dBc maximum
Power Consumption
+15VDC Supply: 400mA maximum at startup
125mA typical at +25°C
+12VDC Supply: 250mA maximum at startup
90mA typical at +25°C
*Consult factory for other available frequencies.
SPECIFICATIONS
PIN FUNCTION
1 Output
2 N/C
3 N/C
4 Ground
5 N/C
6Freq. Control
Voltage
7 N/C
8 +12V
FEATURES
■Meets or exceeds Stratum 3 requirements
■HCMOS/TTL or Sine Wave output
■8 pin DIP packaging
■Low phase noise
■SC cut crystal
APPLICATIONS
■Telecom clock
■VSAT
■Instrumentation
■Navigation
■Communications
OC2541 –
D = +12.0V K = Sine, +7dBm, Code assigned by factory
E = –15.0V 50 Ohm load
H = HCMOS/TTL
PART NUMBERING SYSTEM – OC2541
3
21
Precision Oscillators / Frequency Control Devices
Ovenized Crystal Oscillators
THRU HOLE OCXO FOR SONET – OC2545
SPECIFICATIONS
OC2545-DT
Dimensions: mm
22.86
PIN FUNCTION
1 Output
2 N/C
3 N/C
4 Ground
5 N/C
6Freq. Control
Voltage
7 N/C
8 +12V
10.16 10.16
0.635
35.3 ± 0.5
26.0 max.
0.8 ± 0.1
6.3 max.
20.327.0 ± 0.5
25.4
5.1
5.1
2.54 Ref. Only — 8 Plcs
Freq. Adjust
10 100 1k 10k 100k
f [Hz]
–100
–110
–120
–130
–140
–150
–160
[hp] 3048A Carrier: 10.E + 6Hz
(f) [dBz/Hz]
OC2545-DT
MODEL OC2545
Standard 10.000MHz
Frequencies:* 12.000MHz
Operating Temp.
Range: 0°C to 60°C
Frequency
Deviation: ±4.0ppm minimum
Frequency vs ±0.2ppm maximum
Temperature:
Control Voltage 0VDC to 6VDC
Range:
Modulation DC to 150Hz minimum
Bandwidth:
Warm-up: ±0.1ppm after 10 minutes
at 25°C
–110dBc @ 10Hz
Phase Noise: –120dBc @ 100Hz
–135dBc @ 1KHz
–140dBc @ 10KHz
Harmonic Distortion
Sine Wave output: –25dBc maximum
Electrical Tuning: ±4ppm minimum for 0 to 6 volts
Power Consumption 250mA maximum at startup
90mA typical at +25°C
*Consult factory for other available frequencies.
FEATURES
■Meets or exceeds Stratum 3 requirements
■HCMOS/TTL or Sine Wave output
■8 pin DIP packaging
■Low phase noise
■AT cut crystal
APPLICATIONS
■Telecom clock
■Instrumentation
■Navigation
■Communications
■VSAT
OC2545 –
D = +12.0V K = Sine, +7dBm, Code assigned by factory
50 Ohm load
H = HCMOS/TTL
PART NUMBERING SYSTEM – OC2545
3
22
Precision Oscillators / Frequency Control Devices
OC2566 –
E = +15.0V H = HCMOS Code assigned by factory
K = Sine, +7dBm,
50 Ohm load
M = Sine, +13dBm,
50 Ohm load
Ovenized Crystal Oscillators
THRU HOLE – OCXO FOR SONET – OC2566
SPECIFICATIONS
MODEL OC2566
Standard 3.000MHz
Frequencies:*
Stability ±0.20ppm maximum
All Conditions: per year
Operating Temp.
Range: –30°C to 70°C
Frequency vs ±25ppb maximum
Temperature:
Warm-up: ±0.1ppm after 5 minutes at 25°C
Frequency ±1.0ppm minimum from nominal
Adjustment:
Power Consumption
+15V Supply: 50mA typical
+27V Supply: 400mA maximum
Output Level: +13dBm to +18dBm (@50 Ohm load)
Harmonic Distortion: –20dBc maximum
*Consult factory for other available frequencies.
FEATURES
■Meets or exceeds Stratum 3 requirements
■Sine Wave, HCMOS compatible output
■DIP packaging
■SC cut crystal
APPLICATIONS
■Telecom clock
■Instrumentation
■Navigation
■Communications
■VSAT
PART NUMBERING SYSTEM – OC2566
PIN CONNECTIONS
1 RF Output
2 Case Ground
3 +15V OSC Input
4 Ground
5 +27V Oven Input
44.45 max.
8 — 32 SERL Screw
71.12 max.
28.448
5.08
Ref. Only — 5 Plcs
3.048
60.96 max.
58.42
29.21
22.86
6.35
45.72
22.86
45.72
5.08
1.65 ± .127
1.016
OC2566
6.35
Dimensions: mm
3
23
Precision Oscillators / Frequency Control Devices
PIN FUNCTION
1 Control Voltage
2 Ref. Voltage
3 Supply Voltage
4 RF Output
5 Ground
Dimensions: mm
12.7
0.76 ± 0.13
5.72 ± 0.64
0.56 ± 0.20
17.78
8.89
5.08
10.16
12.7 25.4
36.01
27.18
Ref. Only–5 Plcs.
TYPICAL PHASE NOISE (OC2644)
–100
–110
–120
–130
–140
–150
–160
–170
(hp) 3048A Carrier: 10.E + 6Hz
10 100 1k 10k 100k
f [Hz]
£ (f) [dBc/Hz]
OC2644 –
D = +12.0V H = HCMOS Code assigned by factory
A = +5.0V K = Sine, +7dBm,
50 Ohm load
Ovenized Crystal Oscillators
THRU HOLE OCXO FOR SONET – OC2644
MODEL OC2644
10.000MHz
Standard 13.000000MHz
Frequencies:* 15.000MHz
16.384MHz
19.440MHz
Operating Temp.
Range: 0°C to +70°C
Frequency ±10ppb
Stability:
Control Voltage 0VDC to +4.0VDC
Range:
Warm-up: ±0.1ppm of 24-hour frequency after
30 minutes at 25°C, worst case
Allan
Variance: 1x1010 maximum for = 1 sec
–115dBc/Hz @ 10Hz
Phase Noise: –135dBc/Hz @ 100Hz
–145dBc/Hz @ 1KHz
–150dBc/Hz @ 10KHz
Electrical Tuning: ±1.0ppm to ±2.0ppm
Aging: ±1.0ppb per day maximum at shipment date
Power 750mA maximum at start up,
Consumption: 200mA typical at +25°C
*Consult factory for other available frequencies.
FEATURES
■ Fast warm-up SC
cut crystal technology
■Meets or exceeds SONET Stratum 3 requirements
■HCMOS or SINE outputs
■Industry standard EURO packaging
APPLICATIONS
■Telecom clock
■Instrumentation
■VSAT
■Navigation
■Communications
SPECIFICATIONS
PART NUMBERING SYSTEM – OC2644
OC2644
3
24
Precision Oscillators / Frequency Control Devices
Ovenized Crystal Oscillators
THRU HOLE OCXO FOR SONET – OC2710
MODEL OC2710
Standard 16.384MHz
Frequencies:* 19.440MHz
20.480MHz
Stability ±4.6ppm maximum for
All Conditions: 10 year product lifetime
Operating Temp.
Range: 0°C to +60°C
Frequency ±0.5ppm maximum at 25°C
Deviation:
Control Voltage +0.5VDC to +4.5VDC
Range:
Warm-up: ±0.2ppm of 24-hour frequency after
30 minutes at 25°C
Electrical Tuning: ±10ppm to ±16.5ppm
Power Consumption 800 mA maximum at start-up,
For +5VDC Supply: 200 mA typical stable at +25°C
*Consult factory for other available frequencies.
Possible frequency ranges of 5MHz to 45MHz.
FEATURES
■Meets Stratum 3 requirements
■HCMOS compatible output
■14 pin DIP packaging
APPLICATIONS
■Telecom clock
■A variety of power supply options
■Instrumentation
■Wireless communication
SPECIFICATIONS
OC2710 –
A = +5.0V H = HCMOS Code assigned by factory
F = +3.3V
Note: Consult factory for other supply options available.
PART NUMBERING SYSTEM – OC2710
OC2710
PIN CONNECTIONS
1 N/C
7 Ground
8 RF Output
14 +5
Dimensions: mm
5.842 Min.
20.574 Max.
7.62
15.24
Ref. Only–4 Plcs.
0.457
Date Code (Y) Year (M) Month
Serial Number
Pin One
OC2710AH
A207
SYM
S / N
muRata
13.208 Max. C
L
C
L
12.7 Max.
0.457 5 Plcs.
3
25
Precision Oscillators / Frequency Control Devices
Ovenized Crystal Oscillators
THRU HOLE OCXO FOR SONET – OC3545
MODEL OC3545
9.830400MHz
Standard 12.800000MHz
Frequencies:* 14.1364MHz
15.00MHz
17.000000MHz
Stability ±4.6ppm for 20 years product lifetime max.
All Conditions:
Operating Temp.
Range: 0°C to +70°C
Frequency ±0.5ppm at 25°C
Tolerance:
Warm-up: ±0.10ppm of 24-hour frequency
after five minutes
–95dBc @ 10Hz
Phase Noise: –125dBc @ 100Hz
–140dBc @ ≥1KHz
Power Consumption
+3.3V Supply: 1.15 A maximum at turn on
330mA typical stable at +25°C
+5.0V Supply: 750mA maximum at turn on
200mA typical stable at +25°C
*Consult factory for other available frequencies.
FEATURES
■Meets or exceeds Stratum 3 requirements
■Sine Wave or HCMOS/TTL compatible output
■Low phase noise
APPLICATIONS
■Telecom clock
■Instrumentation
■Navigation
■Communications
SPECIFICATIONS
OC3545 –
A = +5.0V J = Sine, +3dBm, Code assigned by factory
F = +3.3 50 Ohm load
H = HCMOS
PART NUMBERING SYSTEM – OC3545
OC3545
Serial No.
Murata P art No.
Date Code
(Location, Month
and Y ear)
10.16 max.
25.4 19.05
25.4
Ref. Only
—
5 Plcs
10.0
5±0.5 0.762±0.1
—
5 Plcs
OC3545FH-1700
17.000000 MHz
SXX
SN
Frequency
19.05
10.0
Standoff
—
5 Plcs
Material is
a Conductor.
0.508 min.
PIN CONNECTIONS
1 RF Output
2 GND/Case
3 N/C
4 Oven Status
5 VCC
Dimensions: mm
4
26
Crystal Oscillators
Surface Mount – Crystal Oscillator for SONET
Precision Oscillators / Frequency Control Devices
Ref. Only
—
6 Plcs
8.89
Date Code
Location,
Month & Year
Frequency
Pin 1 Location
Murata P art
Number XO2246HF-A213
155.520000 MHz
SXX
1.45
5.51 max.
13.97 max.
5.08
2.54
2.03
3.56
0.71
1.68
1.02
SURFACE MOUNT CRYSTAL OSCILLATOR FOR SONET – XO2246
MODEL X02246
Standard 155.520000MHz
Frequencies:* 166.628500MHz
Stability: ±20ppm worst case over
20 year product lifetime
Operating Temp.
Range: 0°C to 70°C
Jitter: .001 UI RMS max.
–80dBc @ 100Hz
Phase Noise: –110dBc @ 1KHz
–135dBc @ 10KHz
–140dBc @ ≥100KHz
Power
Consumption: 65mA typical at +25°C
*Consult factory for other available frequencies.
FEATURES
■
Inverted Mesa, AT cut fundamental mode crystal technology
■ECL, PECL and LVPECL compatible output
■SMT packaging
■Available tape and reel
■Reflow solderable
■Very low jitter
■Low aging
■No subharmonics
APPLICATIONS
■Telecom clock
■Forward error correction
SPECIFICATIONS
XO2246 –
A = +5.0V F = 100K ECL Code assigned by factory
H = –5.2V U = PECL
F = +3.3V V = LVPECL
PART NUMBERING SYSTEM – XO2246
XO2246
PIN CONNECTIONS
1 N/C
2 N/C
3 Supply Voltage
4 Q Output
5 Q Output
6 Ground
Dimensions: mm
4
27
Crystal Oscillators
SURFACE MOUNT CRYSTAL OSCILLATOR FOR SONET – XO2266
Precision Oscillators / Frequency Control Devices
XO2266–
A = +5.0V U = PECL Code assigned by factory
MODEL DC2300
Standard 155.520000MHz
Frequencies:*
Stability: ±15ppm worst case over
10 year product lifetime
Operating Temp.
Range: 0°C to 70°C
Power
Consumption: 85mA maximum
*Consult factory for other available frequencies.
FEATURES
■
Inverted Mesa, AT cut fundamental mode crystal technology
■PECL compatible output
■SMT packaging
■Available tape and reel
■Reflow solderable
■Very low jitter
■Low aging
■No subharmonics
APPLICATIONS
■Telecom clock
■Forward error correction
SPECIFICATIONS
PART NUMBERING SYSTEM – XO2266
XO2266
Ref. Only
—
4 Plcs
14.22 max.
5.08
11.43 max.
Date Code
Location,
Month & Year
Frequency
Pin 1 Location
Murata P art
Number
5.97 max.
0.76
XO2266AV- A206
155.520000 MHz
SXX
2.54
2.54
PIN CONNECTIONS
2 Enable/Disable
4 Ground
7 Output
9 Vcc
Dimensions: mm
4
28
Crystal Oscillators
Surface Mount – Crystal Oscillator for SONET
Precision Oscillators / Frequency Control Devices
SURFACE MOUNT CRYSTAL OSCILLATOR FOR SONET – X02286
FEATURES
■
Inverted Mesa, AT cut fundamental mode crystal technology
■ LVPECL compatible output
■ SMT packaging
■ Available tape and reel
■ Reflow solderable
■ Very low jitter
■ Low aging
■ No subharmonics
APPLICATIONS
■ Telecom clock
■ Forward error correction
Ref. Only
—
6 Plcs
0.71
Date Code
Location,
Year and Wee
k
Pin 1 Location
Murata Part
Number
5.72 max.
2.54 min.
XO2286FV- A224
155.520000 MHz
SXX
S/N
2.54
13.46 max.
20.57 max.
0.51
1.73
1.73
12.70
15.24
MODEL X02286
Standard 155.520000MHz
Frequencies:* 167.331646MHz
Stability: ±20ppm worst case over
10 year product lifetime
Operating Temp.
Range: 0°C to 85°C
Jitter: .001 UI RMS max.
–60dBc @ 100Hz
Phase Noise: –90dBc @ 1KHz
–110dBc @ 10KHz
–125dBc @ ≥100KHz
Power
Consumption: 20mA max.
*Consult factory for other available frequencies.
SPECIFICATIONS
PIN CONNECTIONS
1 No Connect
6 No Connect
7 Ground
8 Output Signal
9 Complementary Output
14 Vs Supply Voltage
Dimensions: mm
XO2286–
F = +3.3V LV = LVPECL Code assigned by factory
PART NUMBERING SYSTEM – XO2286
5
29
Surface Mount – Crystal Oscillator for SONET
Precision Oscillators / Frequency Control DevicesPrecision Oscillators / Frequency Control Devices
DC2300–
A = +5.0V H = HCMOS Code assigned by factory
Digitally Compensated Crystal Oscillators
DC2300 SERIES FOR SONET
MODEL DC2300
Standard 10.00000MHz
Frequencies:*
Stability ±0.1ppm to ±0.5ppm
All Conditions:
Operating Temp.
Range: –40°C to 85°C
Control Voltage 0VDC to +5VDC
Range:
Allan
Variance: 5x10–10 at one second
–90dBc @ 10Hz
Phase Noise: –125dBc @ 100Hz
–140dBc @ 1KHz
–140dBc @ 10KHz
Electrical Tuning: ±.5ppm min. for 0 to +5V
Power Consumption
+5VDC Supply: 35mA typical
*Consult factory for other available frequencies.
FEATURES
■Digitally compensated to improve thermal stability
■Meets or exceeds Stratum 3 requirements
■HCMOS/TTL compatible
■DIP packaging
■Low power consumption
■Accuracy of an OCXO
APPLICATIONS
■Telecom clock
■Instrumentation
■Wireless communications
SPECIFICATIONS
PART NUMBERING SYSTEM – DC2300
DC2300
Dimensions: mm
20.3
50.8
12.7
7.9
12.7
25.4
.03 dia.
50.8
10.2 3.8
PINS CONNECTIONS
1 Output
2 Serial I/O
3 GND
4+5
5 GND
6
30
Surface Mount – Crystal Oscillator for SONET
Precision Oscillators / Frequency Control Devices
VCOs
MQE95 Series
5 5 1 3 2 3
M 1 4 8 2 A 2
MD123
SPG
CBG
GC
GG
B
GSP
GG
PART NO. MANUFACTURER 'S
MARK AND LOT NO.
5.8±0.2
5.5±0.2
7.6±0.2
2.0±0.1
0.7±0.15
1.3±0.1
1.8±0.2
2.2±0.1
4.2±0.1
0.8±0.15
Lot No.
D : Factory Code
1 : Year
2,3 : Week No.
P : OUTPUT
B : POWER SUPPLY
C : CONTROL VOLTAGE
S : SWITCHING VOLTAGE
G : GROUND
(in mm)
MQK Series
(in mm)
Terminal Configuration
B : DC Power supply
C : Frequency Control
P : Output
M : No Contact
G : Ground
NOTE) There is no terminal
mark on the VCO.
1.8 max. 4.8±0.2
1.3±0.3
3.7±0.3 0.65 max.
1.0±0.3
1.3±0.3
2.6±0.3 1.0±0.3
1.3±0.3
2.6±0.3
4.6±0.3
5.5±0.2
PART No. MANUFACTURER'S
MARK AND LOT No.
1 : Year
2, 3 : Week No.
1
D23
MBGP
CPGB
MQL Series
(in mm)
Terminal Configuration
B : DC Power supply
C : Frequency Control
P : Output
M : No Contact
G : Ground
NOTE) There is no terminal
mark on the VCO.
1.8 max. 4.0±0.2
1.2±0.3
3.0±0.3
0.6±0.3
1.2±0.3
4.0±0.3 0.6±0.3
1
D23
0.6±0.3
4.6±0.3
5.0±0.2
CGB MGP
CGBMG
GGGG
P
PART No. MANUFACTURER'S
MARK AND LOT No.
1 : Year
2, 3 : Week No.
Terminals
: Gold plating
: Solder
MQW1 Series
(in mm)
1 : VB1 (DCS)
2 : GND
3 : VC
4 : GND
5 : VB2 (GSM)
6 : OUT2 (GSM)
7 : SW1
8 : NC
9 : SW2
10: OUT1 (DCS)
11: GND
12: GND
1.6±0.2 7.0±0.2
2.4±0.2
5.2±0.2
1.0±0.1 1.8±0.2
9.6±0.2 7.8±0.2
PART No. MANUFACTURER'S
MARK AND LOT No.
1 : Year
2, 3 : Week No
.
10 9 8 76 12345
1
11 12
2345 10
11 12
98 76
1
D
W111
897M
1747C2
23
1.8 (PITCH) x 4 = 7.2
Series Frequency Range Size
(mm)
MQE95 SERIES 700 to 2000MHz (Shift VCO) 7.6 X 5.8 X 1.8
MQK SERIES 700 to 2000MHz 5.5 X 4.8 X 1.65
MQL SERIES 700 to 2600MHz 5.0 X 4.0 X 1.65
MQW1 SERIES 700 to 2000MHz (Dual VCO) 9.6 X 7.0 X 1.65
C
M
MQSeries
Frequency Control Voltage Output Power C/N Separation
Application Part Number (MHz) VB Vc (V) Sensitivity Level Consumption (DBc/Hz) (KHz)
(System) (MHz/V) (dBm) (mA Max)
MQK Series
GSM/DCS 1stLO MQK001-927 880.0975.0 2.80 0.5~2.3 71 ± 10 –6 ± 3 8.0 92 250.0
CDMA 1stLO MQK002-967 954.0980.0 2.95 0.7~2.7 24 ± 6 –1.5 ± 3 8.5 118 60.0
TDMA 1stLO MQK001-1016A 981.01052.0 2.50 0.9~3.65 32 ± 3 –0.5 ± 2.5 7.0 117.5 60.0
WLL 1stLO MQK301-1528 1466.01590.0 2.70 0.5~3.65 70 ± 10 1 ± 3 12.0 120.00 600.0
MQL Series
EPDC 1stLO MQL005-717 680.0755.5 2.30 0.5~2.5 50 ± 5 –2 ± 3 6.6 92 250.0
WCDMA 1stLO MQL001-760 760.0760.0 2.50 0.5~2.0 20 ± 4 –3 ± 2.5 4.5 135 10000.0
MQL304-2330 2300.02360.0 2.20 0.5~3.5 50 ± 9 –0 ± 3 8.5 90 10.0
JCDMA 1stLO MQL002-946 920.0972.0 3.70 0.6~3.0 32.5 ± 4.5 0 ± 3 10.0 83 10.0
PHS 1stLO MQL3H2-1668 1648.01688.0 2.70 0.5~2.2 35 ± 5 –6.5 8110 100.0
PDC1.5G 1stLO MQL302-1619 1607.051631.05 2.50 0.45~2.45 27 ± 6 –3 ± 3 7100 100.0
DCS1800 1stLO MQL302-1840 1790.01891.0 3.70 0.6~3.0 63.5 ± 8 0 ± 3 10.0 143 3000.0
GSM1900 1stLO MQL302-1960 1920.02000.0 3.70 0.6~3.0 55 ± 7 0 ± 3 10.0 143 3000.0
MQL301-1964 1920.02009.0 3.60 0.6~3.0 55 ± 7 –1.5 ± 3 10.0 143 3000.0
NOT ALL PART NUMBERS ON
THIS PAGE ARE CURRENTLY
AVAILABLE. PLEASE CONTACT
YOUR LOCAL MURATA
REPRESENTATIVE FOR
UPDATED INFORMATION.
6
31
Surface Mount – Crystal Oscillator for SONET
Precision Oscillators / Frequency Control Devices
Microwave Oscillators
VOLTAGE CONTROLLED (VCO) – MQE900/MQK/MQL SERIES
VCO TYPICAL CHARACTERISTICS
C/N Level Test Circuit
FM Linear DetectorFM Linear Detector +B Power Supply
RS Oscillator
4.7
P
C
B
M
4.7
+
–
+
–
+ –
1
1000P 1000P
1000P
Controlled Power Supply 100k
1k 10k 100k 1M 10M
100 L(f) [dBc/Hz] vs. f[Hz] 40M
0
–10
–20
–30
–40
–50
–60
–70
–80
–90
–100
–110
–120
–130
–140
–150
–160
–170
1.1
3.4
2.2
2.9~3.1
4.3
3.4
2.3
1.1
1.9~2.1
B GND C
P GND M
G
N
D
G
N
D
VCO
16.0 ± 0.2
7.5 ± 0.1
1.75 ± 0.1
2.0 ± 0.1
1.5 +0.1
–0
2.6 ± 0.1
12.0 ± 0.1
4.0 ± 0.1
6
R4
2.2±0.2
5°
90°
25 ± 0.5
94 ± 0.5
2+ 0.2
– 0
25.5
2 ± 0.2 2
25
MOUNTING AND PACKAGING – MQE9
Recommended Mounting Dimensions: mm Reflow Soldering Conditions
Taping Specifications: mm Reel Dimensions: mm MQE9- -T7
T7 = 3000pcs./reel
Time
60 sec. 50 sec.
220 ± 10
180
150
Temperature (°C)
MQE920
–1774
D12
MQE920
–1774
D12
50°
120°
13 ± 0.2
100 ± 0.3
330 +0.5
–1
MQE920
–1774
D12
7
32
Surface Mount – Crystal Oscillator for SONET
Precision Oscillators / Frequency Control Devices
PLL Modules
HFQC80 Series
0.8±0.2
8.2±0.2
1.5±0.2
1.2±0.2
8.0±0.3
3.0±0.2
6.2±0.2
2.0 max.
9.8±0.3
12 11 10 9 8 7
12 11 10 9 8 7
123456
123456
(in mm)
1 : LD
2 : Do IF
3 : fin IF
4 : Vcc VCO
5 : Vcc PLL
6 : RF OUT
7 : PS
8 : LE
9 : DATA
10: CLK
11: GND
12: TCXO IN
PART No. MANUFACTURER'S
MARK AND LOT No.
1 : Factory Code
2 : Year
3, 4 : Week No.
1
HFQ
C80Q
MA01
234
HFQD08 Series
1
HFQD08Q
M A01
234
14 13 12 11 10 9 8
1234567
(in mm)
1 : Vcc RF VCO
2 : Po RF
3 : PS (RF)
4 : GND
5 : PS(IF)
6 : Po IF
7 : Vcc IF VCO
8 : TCXO in
9 : LD
10: Vcc PLL
11: GND
12: CLOCK
13: LE
14: DATA
PART No. MANUFACTURER'S
MARK AND LOT No.
1 : Factory Code
2 : Year
3, 4 : Week No.
8.6±0.3
12.6±0.3
2.0 max.
1.7±0.2
10.8±0.2
1.1±0.1
2.3±0.2
7.0±0.2
1.3±0.1
HFQD80 Series
MD12 3
H F Q D 8 0 Q
M
A 0 1
161514 1213 1110
123 5467
17
18
9
8
9.8±0.2
8.0±0.26.9±0.2
3.0±0.2
8.6±0.3
0.8±0.1
1.2±0.1
PART NO.MANUFACTURER'S
MARK AND LOT NO.
1. Year
2,3. Week No.
1. VccRFVCO
2. PoRF
3. PS (RF)
4. GND
5. LD
6. PoIF
7. VccIFVCO
8. GMD
9. GND
10. TCXOin
11. PS (IF)
12. VccPLL
13. GND
14. CLOCK
15. LE
16. DATA
17. GND
18. GND
Max. 2.0
1.4±0.2
(in mm) : Solder
HFQS80 Series
1
HFQ
S80Q
MA01
234
1.0±0.1
8.0±0.3
2.0 max.
9.8±0.3
8.0±0.2
1.8±0.2
(in mm)
10 9 8 7 6 1
12345 10
2
9
3
8
4
7
5
6
PART No. MANUFACTURER'S
MARK AND LOT No.
1 : TCXO IN
2 : Vcc VCO
3 : GND
4 : Output
5 : Vcc PLL
6 : PS
7 : CK
8 : DT
9 : LE
10: LD
1 : Factory Code
2 : Year
3, 4 : Week No.
4.1±0.2
6.2±0.2
Series RF/Local Frequency Limits IF/Local Frequency Limits Module Structure Size
(mm)
HFQC80 SERIES 700 to 2000MHz Only IF Port RFVCO+Dual PLLIC (for CDMA) 9.8 X 8.0 X 1.85
HFQD08 SERIES 700 to 2000MHz 100 to 350MHz RFVCO+IFVCO+Dual PLLIC 12.6 X 8.6 X 1.85
HFQD80 SERIES 700 to 2600MHz 100 to 760MHz RFVCO+IFVCO+Dual PLLIC 9.8 X 8.0 X 1.85
HFQS80 SERIES 700 to 2500MHz - RFVCO+PLLIC 9.8 X 8.0 X 1.85
NOT ALL PART NUMBERS ON THIS
PAGE ARE CURRENTLY AVAILABLE.
PLEASE CONTACT YOUR LOCAL
MURATA REPRESENTATIVE FOR
UPDATED INFORMATION.
7
33
Surface Mount – Crystal Oscillator for SONET
Precision Oscillators / Frequency Control Devices
Microwave Oscillators
PHASE LOCK LOOP MODULE – HFQD08/HFQS14/HFQS80 SERIES
Precision Oscillators / Frequency Control Devices
■ BLOCK DIAGRAM
Rx AMP Rx BPF
Tx BPF
Tx
VCO
VCO
PA
ISOLATOR
DUPLEXER
TCXO
MOD
PLL IC
LO BPF
PLL IC
MIXER
IF FILTER
Rx
Rx
PLL-MODULE
Tx
PLL-MODULE
Operating Supply Output Power Lock-up
Application Part Number Frequency Voltage (1) Level Consumption C/N (2) Time
Range (MHz) (V) (dBm) (mA max.) (dBc/Hz min.) (msec.max.)
VICS Tx/Rx HFQS80Q2489MA01 2489 3.0 ± 0.2 0 ± 3 23 –110 5.0
N-CDMA800 Tx/Rx HFQD08B740M440A01 741.5 ± 19.5 2.8 ± 0.1 –4 ± 2.5 20 –138 5.0
ISM5.8 Tx/Rx HFQS14D5820MA01 5820 ± 25 5.0 (3.0) 0 ± 3 37 — 1.0
PLL MODULES
(1) = Vcc1 (3.0) for VCO + Doubler, Vcc1 (5.0) for PLL-IC
(2) = Separation (kHz)
®
Marketing Communications
2200 Lake Par k Dr ive
Smyrna, Georgia 30080
Tel: 770-436-1300
Fax: 770-436-3030
www.murata.com
©2001, Murata Electronics Nor th Amer ica, Inc.
02/02
All infor mation contained in
this catalog is available in
PDF downloadable format at
www.murata.com.
