OSCILLATOR PRODUCTS CATALOG O-20-A Please visit our website www.murata.com CONTENTS 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 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. Environmental Testing 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: -55C to +85C (to +125C Optional) Vibration: 10G's, 10 to 500Hz MIL-STD-202, Method 204 Shock: Test condition A 30g, 11msec., 1/2 sine 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. 1 Precision Oscillators / Frequency Control Devices Introduction and Standards 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. 2 Precision Oscillators / Frequency Control Devices Introduction and Standards The following material briefly describes our in-house standards and offers some cost/performance tradeoffs. OUTPUT CHARACTERISTICS Oscillator output waveforms are either sine or square waves. 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.) 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 Logic "1" Level Symmetry 0.4V Max. 2.4V Min. 40/60 1.0V Max. Vcc - 1.0V 40/60 Load 10 Gates 50pF Max. Freq. Range 1Hz to 100MHz 1Hz to 100MHz -1.89V -0.89 40/60 50 ohms to -2VDC 4.0MHz to 700MHz 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. [Hz] FREQUENCY STABILITY [ppm] f fc [MHz] 2.0 Specific Stabilities - 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 1pp 10 9. 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 -10C to +60C. 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. *Specify logic type to be driven RELATIVE FREQUENCY STABILITY OF TYPICAL CRYSTAL OSCILLATOR TYPES +10ppm- Uncompensated "AT" Cut Crystal Osc. (XO) f/f 0- Ovenized Crystal Oscillator (OCXO) Analog Temp. Compensation (TCXO) -10ppm- -40C +20C Temperature +80C 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. 3 Precision Oscillators / Frequency Control Devices Introduction and Standards INPUT POWER CHARACTERISTICS MECHANICAL SPECIFICATIONS 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. 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. 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. [dBc/Hz] 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. (f) [dBc/Hz] vs f [Hz] -60 -70 -80 -90 -100 -110 -120 -130 -140 -150 -160 -170 -180 HP3048A Carrier: 7.60385 MHz 10 100 1K [Hz] 10K 100K 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: 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) deviation 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). 4 fc+200 Frequency [Hz] 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. fc+400 Line D fc=1,000,000 Line A Line B +5% fc-200 Line C - 5% fc-400 -3 -2 -1 0 +1 Voltage [V] +2 +3 Note: Frequency can also be controlled with a digital input signal (serial or parallel) instead of an analog voltage. Consult the factory for options. Precision Oscillators / Frequency Control Devices RFQ Form /Quick Quote 1. Copy on your copier 2. Send us your specifications OR 3. Dial (814) 237-1431 Fax (814) 237-1791 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 @ 25C ______________________________________ Harmonic Dist. ________________ Subs ________________ F___________ From _____________C To_____________ C Spurious ___________________________________________ F___________ Vs B +___________________________ % Load ______________________________________________ F___________ Vs Time_____________________________ Square: PECL LVPECL 25C Setting Tolerance_________________________________ TTL CMOS ECL Frequency Adjustment _________________________________ Others___________________________________________ Power Supply: CML 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: ________________________________________ 5 Precision Oscillators / Frequency Control Devices Part Numbering System PART NUMBERING SYSTEM TC OSCILLATOR TYPE TC--TCXO TV--TCVCXO XH--Hybrid Crystal Oscillator TH--Hybrid TCXO 2100 BASE NO. XO--Crystal Oscillator VH--Hybrid VCXO VO--VCXO OC--OCXO INPUT VOLTAGE (5% TOLERANCE STANDARD) A 6 +5.0VDC B +7.5VDC C +10.0VDC D E C N INPUT VOLTAGE See Chart Below -1000 OUTPUT TYPE See Chart Below OUTPUT TYPE T TTL C CMOS H HCMOS/TTL Compatible E ECL "10KH" +12.0VDC F ECL "100K" +15.0VDC G SINE, 0dBm, 50 LOAD F +3.3VDC J SINE, +3dBm, 50 LOAD G -5.0VDC H J K SINE, +7dBm, 50 LOAD L SINE, +10dBm, 50 LOAD -5.2VDC M SINE, +13dBm, 50 LOAD -12.0VDC N CLIPPED SINE, 1Vp-p, 1k LOAD K -4.5VDC P 0dBm min., 50 LOAD L +4.0VDC M (OTHER) U PECL V LVPECL Z CML CODE Unique code assigned by factory 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 SPECIFICATIONS TC2268 MODEL TC2268 Ink Stamp Standard Frequencies:* Stability: All Conditions: 10.00000MHz 15.0000MHz 16.000000MHz 16.384MHz 20.000000MHz 21.056700MHz 30.00000MHz 32.000MHz 3.0ppm worst case for first year product lifetime 5.0ppm worst case for 10 year product lifetime Power Consumption for 5VDC 5%: Model Number Frequency 0.25 min. Date Code SXX TC2268AN-3000 30.000000 MHz 11.81 0.25 Ref. Only - 4 Plcs. Pin #1 19.1 0.1 19.05 9.53 2.03 - 4 Plcs. 5.84 0.5 3.81 7.62 Thermal Breaks for Grounding Pad Recommend Ground Conductor in Open Space 3.56 - 4 Plcs. Operating Temp. Range: Frequency Deviation: Phase Noise: 17.78 0.25 0C to +85C RECOMMENDED PAD LAYOUT PIN 1 2 3 4 1ppm min. -74dBc @ 10Hz -104dBc @ 100Hz -130dBc @ 1KHz -140dBc @ 10KHz Ranges from 2mA to 20mA maximum at +25C FUNCTION N/C Ground Output Signal Supply Voltage Dimensions: mm *Possible frequency range of 5MHz to 50MHz. Consult factory for other available frequencies. PART NUMBERING SYSTEM - TC2268 *Possible frequency range of 5MHz to 50MHz. Consult factory for other available frequencies. A = +5.0V F = +3.3V TC2268 - H = HCMOS Code assigned by factory G = SINE, 0dBm, 50 Ohm Load N = CLIPPED SINE, 1 Vp-p, 1K Ohm Load 7 Precision Oscillators / Frequency Control Devices Temperature Compensating High Stability Crystal Oscillators 1 THRU HOLE TCXO SERIES - TC2110 FEATURES Sine Wave and HCMOS compatible outputs 4 Pin dip APPLICATIONS Telecom clock Instrumentation Navigation Communications TC2110 SPECIFICATIONS MODEL TC2110 Standard Frequencies:* 3.577149MHz 8.192MHz 9.600MHz 10.000MHz 19.600MHz 27.00000MHz Aging: 1.0ppm per year worst case Operating Temp. Range: -20C to +70C Frequency vs. Temperature: 1ppm maximum Mechanical Frequency Adjustment: 5ppm minimum Power Consumption for 5VDC 5%: 25mA maximum at +25C 15.24 max. 7.4 OUT B+ GND GND 25.4 17.78 Freq. Adj. Access Top Surface Ref. Only -- 4 Plcs 0.76 Dia. -- 4 Plcs 17.78 25.4 Dimensions: mm *Consult factory for other available frequencies. PART NUMBERING SYSTEM - TC2110 TC2110 A = +5.0V 8 - H = HCMOS G = SINE, 0dBm, 50 Ohm Load Code assigned by factory Precision Oscillators / Frequency Control Devices Temperature Compensating High Stability Crystal Oscillators 1 THRU HOLE TCXO SERIES - TC2178 FEATURES Sine, clipped SINE wave, HCMOS compatible output 3 pin dip APPLICATIONS Telecom clock Communications Wireless Instrumentation TC2178 SPECIFICATIONS MODEL Standard Frequencies:* Stability: All Conditions: TC2178 6.144MHz 9.600MHz 10.000000MHz 12.8000MHz 13.5168MHz 15.360000MHz 16.000MHz 16.384MHz 19.5000MHz 24.00000MHz 25.00000MHz 32.000MHz 39.300MHz 44.950MHz 44.952MHz 128.000000MHz 5ppm worst case per 10 year product lifetime Widest Operating Temp. Range: Electrical Frequency Deviation: Mechanical Frequency Adjustment: Control Voltage Range: Phase Noise: Power Consumption for +5VDC Supply: 18.3 0.76 2.31 0.25 9.0 0.76 11.71 0.76 0.51 Dia. 7.5 0.38 4.0 0.51 6.35 min. 1.0 0.25 4.0 1.0 15.0 0.38 PIN 1 2 3 FUNCTION Common and Case Output +Vcc Dimensions: mm 0C to +85C 6ppm minimum 5ppm minimum -4.5VDC to +4.5VDC -60dBc @ 1Hz -90dBc @ 10Hz -110dBc @ 100Hz -130dBc @ 1KHz 2mA to 50mA typical at +25C *Possible frequency range of 5MHz to 155.52MHz. Consult factory for other available frequencies. PART NUMBERING SYSTEM - TC2178 TC2178 A = +5.0V D = +12.0V - 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 9 Precision Oscillators / Frequency Control Devices Temperature Compensating High Stability Crystal Oscillators 1 THRU HOLE TCXO SERIES - TC2378 FEATURES Meets or exceeds Stratum 3 requirements LVPECL (100EL series compatible) APPLICATIONS Telecom clock SPECIFICATIONS TC2378 MODEL TC2378 Standard Frequencies:* 155.520000MHz 622.080MHz 4.6ppm worst case per 10 years of product lifetime Stability All Conditions: Operating Temp. Range: Frequency Accuracy: 0.5ppm max. at 25C Jitter: 30psec p-p max. Power Consumption +5VDC Supply: +3.3VDC Supply: Frequency Vs 5% Supply Variation: 24 Hr. Holdover Stability: Date Code Location, Week & Year Murata 155.520000 MHz TC2378FV-A199 SXX S/N Frequency Murata Part Number Serial Number 0C to +70C 13.462 max. 0.635 max. 1.016-- 5 Plcs 3.048 min. 38.862 max. 25.4 12.7 20mA maximum 70mA maximum 6.35 0.1ppm 38.862 max. 25.4 0.37ppm maximum (includes up to 20C temperature drift and aging) 12.7 PIN 1 2 3 4 5 FUNCTION +3.3VDC Output 1 Output 2 RF & Case Ground +5VDC Ref. Only --5 Plcs *Consult factory for other available frequencies. Metal Standoffs-- 4 Plcs Dimensions: mm PART NUMBERING SYSTEM - TC2378 TC2378 F = +3.3V 10 - V = LVPECL Code assigned by factory Precision Oscillators / Frequency Control Devices Temperature Compensating High Stability Crystal Oscillators 1 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 TV2178 SPECIFICATIONS MODEL Standard Frequencies:* Stability All Conditions: Operating Temp. Range: Frequency Deviation: Mechanical Frequency Adjustment: Control Voltage Range: Phase Noise: Power Consumption for +5VDC Supply: TV2178 10.000000MHz 12.000000MHz 12.800000MHz 14.40000MHz 15.000MHz 15.3600MHz 16.384000MHz 19.6608MHz 20.000000MHz 35.000MHz 100.000000MHz 5ppm worst case per 10 years of product lifetime 18.29 0.76 2.31 0.25 9.00 0.76 11.71 0.76 6.35 min. 0.51 Dia. 4.00 0.51 7.50 0.38 1.00 0.25 4.0 1.0 15.01 0.38 PIN 1 2 3 4 -40C to +85C 10ppm min. to 40ppm maximum 5ppm minimum FUNCTION Common and Case Output +Vcc +Vc Input Dimensions: mm -4.5VDC to +4.5VDC -60dBc @ 1Hz -90dBc @ 10Hz -110dBc @ 100Hz -130dBc @ 1KHz 2mA to 25mA typical at +25C *Possible frequency range of 5MHz to 155.52MHz. Consult factory for other available frequencies. PART NUMBERING SYSTEM - TV2178 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 11 Precision Oscillators / Frequency Control Devices Temperature Compensating High Stability Crystal Oscillators 1 TC/VCXO SERIES - TV2363 FEATURES Meets or exceeds SONET minimum clock requirements 100K ECL compatible output 24 Pin DIP APPLICATIONS Telecom clock OC-3 SPECIFICATIONS TV2363 12.7 max. MODEL TV2363 Standard Frequencies:* 155.520MHz Stability All Conditions: 15ppm worst case for 20 year product lifetime 1.25 max. 6.35 0.46 .076 -- 24 Plcs Operating Temp. Range: Frequency Deviation: Control Voltage Range: 40ppm min. to 60ppm maximum VCXO Modulation Bandwidth: DC to 1.4KHz Jitter: 64psec p-p maximum Aging: 15ppm per 20 years Power Consumption -4.5VDC Supply: +12VDC Supply: 50mA maximum at +25C 20mA maximum at +25C Standoffs -- 4 Plcs -40C to +85C 22.86 max. 15.24 24 Ref Only -- 4 Plcs 2.54 .127 Typ. -8VDC to +8VDC 27.94 PIN FUNCTION 1 VC Control Volt. 2,8,10,12 Case/Gnd VS2 Supply 9 Volt. (+12V) VS1 Supply 11 Volt. (-4.5V) 14 Output Signal Complementary 16 Output Signal 13,15,17 Case/Gnd Others N/C 35.56 max. Dimensions: mm *Consult factory for other available frequencies. 100K ECL COMPLEMENTARY OUTPUT CHARACTERISTICS TV2363-1 17.7900 ns 21.5400 ns 25.2900 ns Ch. 1 = 200.0 mVolts/div Delta V = 768.75 mVolts Timebase = 750 ps/div PART NUMBERING SYSTEM - TV2363 TV2363 D = +12.0V 12 F = ECL - Code assigned by factory Precision Oscillators / Frequency Control Devices Voltage Controlled Oscillators SURFACE MOUNT VCXO FOR SONET - VH2211 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 2 APPLICATIONS OC-12, OC-48, OC-192 and OC-768 Forward error correction frequencies available SPECIFICATIONS VH2211 MODEL VH2211 Standard Frequencies:* 622.0800MHz 666.514286MHz (15/14 of 622.0800MHz) 20ppm worst case for 20 year lifetime Stability All Conditions: Operating Temp. Range: Control Voltage Range: 25.4 30.48 0C to +85C VH2211AZ- A202 622.0800 MHz YYWW PIN 1 Locater Ink Mark Murata Part Number Frequency 4-Digit Serial Number Date Code 0.5 to 4.5VDC Modulation Bandwidth: 0.889 100KHz minimum 4.953 Modulation Gain: 19.4ppm/V Kv 29.0ppm/V Jitter: .001 UI max. Phase Noise: -60dBc @ 100Hz -90dBc @ 1KHz -110dBc @ 10KHz -125dBc @ 100KHz Electrical Tuning: 40ppm to 60ppm Power Consumption for +5.0VDC Supply: 50mA maximum Sub-Harmonics -45dBc maximum 15.24 1.727 1.016 2.54 typ. 1.702 Ref. only 14 Plcs PIN 1 2,4,5,6,7 10,11,13,15 8,9 Dimensions: mm 3 12 14 16 FUNCTION Control Voltage Ground Missing Supply Voltage (+5.0V) Output Signal Q Output Signal /Q Disable *Consult factory for other available frequencies. PART NUMBERING SYSTEM - VH2211 VH2211 A = +5.0V H = -5.2V F = +3.3V F = ECL V = PECL Z = CML - Code assigned by factory 13 Precision Oscillators / Frequency Control Devices Voltage Controlled Oscillators SURFACE MOUNT VCXO FOR SONET - VO2246 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 2 APPLICATIONS Telecom clock Forward error correction frequencies SPECIFICATIONS VO2246 MODEL V02246 Standard Frequencies:* 155.520000MHz 166.628500MHz 20ppm worst case over 20 year product lifetime Stability All Conditions: 13.97 Operating Temp. Range: 0C to 70C Jitter: .001 UI RMS max. Phase Noise: -80dBc @ 100Hz -110dBc @ 1KHz -135dBc @ 10KHz -140dBc @ 100KHz Power Consumption: 65mA typical at +25C Murata Part Number Frequency Date Code Location, Week & Year VO2246HF- A213 155.520000 MHz SXX 8.89 Pin 1 Location Dimensions: mm 5.512 max. 1.016 5.08 2.54 *Consult factory for other available frequencies. 1.448 Ref. Only -- 6 Plcs 0.711 1.676 PART NUMBERING SYSTEM - VO2246 VO2246 A = +5.0V H = -5.2V F = +3.3 14 - F = 100K ECL U = PECL V = LVPECL 2.032 3.556 Code assigned by factory PIN 1 2 3 4 5 6 FUNCTION N/C N/C Supply Voltage Q Output /Q Output Ground Precision Oscillators / Frequency Control Devices Voltage Controlled Oscillators SURFACE MOUNT VCXO FOR SONET - VO2268 FEATURES SINE, 0dBm, 50Ohm load SMT packaging Available tape and reel Reflow solderable Very low jitter Low aging 2 APPLICATIONS Telecom clock Wireless communication Instrumentation SPECIFICATIONS VO2268 MODEL V02268 Standard Frequencies:* 32.000000MHz 39.3216MHz 40ppm worst case Stability All Conditions: Operating Temp. Range: Frequency Deviation: Control Voltage Range: Ink Stamp Date Code 17.78 0.25 SXX VO2268AG-3200 32.000 MHz Frequency 11.78 0.25 Pin #1 -40C to 85C 40ppm min. over full tuning voltage range 5.84 0.5 +0.5VDC VC +4.5VDC Jitter: 2.62 typ. 50 psec p-p max. 0.25 min. 1.63 typ. Phase Noise: Power Consumption for +5V Supply: -80dBc @ 10Hz -110dBc @ 100Hz -130dBc @ 1KHz -140dBc @ 10KHz -140dBc @ 100KHz -140dBc @ 100KHz 4.62 typ. 1.73 typ. 19.1 0.1 Dimensions: mm Ref. Only - 4 Plcs. PIN 1 2 3 4 FUNCTION EFC Ground Output Signal Supply Voltage 20mA typical at +25C *Consult factory for other available frequencies. PART NUMBERING SYSTEM - VO2268 VO2268 A = +5.0V - G = SINE, 0dBm, 50 Ohm Load Code assigned by factory 15 Precision Oscillators / Frequency Control Devices Voltage Controlled Oscillators SURFACE MOUNT VCXO FOR SONET - VO2286 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 2 APPLICATIONS OC-3 Clock recovery PLL VO2286 SPECIFICATIONS 20.574 max. MODEL V02286 Standard Frequencies:* 155.520000MHz 166.628571MHz 35ppm worst case for 20 year product lifetime Stability All Conditions: 13.843 max. Operating Temp. Range: Control Voltage Range: Modulation Bandwidth: Modulation Sensitivity: 45ppm/V Kv 28ppm/V (others upon request) Jitter: .001 UI max. Electrical Tuning: 50ppm Freq. Deviation 125ppm Power Consumption: 10mA to 65mA SXX S/N Pin #1 0C to 85C 0.0 to 5.0VDC 0.508 5.715 max. DC to 50KHz 1.727 0.711 Ref. Only - 6 Plcs. 1.727 12.7 15.24 PART NUMBERING SYSTEM - VO2286 VO2286 A = +5.0V H = -5.2V F = +3.3V PIN 1 6 7 9 10 14 2.54 *Consult factory for other available frequencies. 16 Frequency Murata Part Number Date Code Location, Month & Year Serial Number 155.520000 MHz VO2286AV-A204 - F = ECL U = PECL V = LVPECL Z = CML Code assigned by factory FUNCTION Vc Control Voltage Disable Ground Output Signal Complementary Output Vs Supply Voltage 2.54 Dimensions: mm Precision Oscillators / Frequency Control Devices Voltage Controlled Oscillators THRU HOLE VCXO FOR SONET - VH1011 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 2 APPLICATIONS OC-12, OC-48, OC-192 and OC-768 Forward error correction frequencies available VH1011 SPECIFICATIONS MODEL Stability All Conditions: Operating Temp. Range: Frequency Deviation: Control Voltage Range: Modulation Bandwidth: Modulation Sensitivity: Phase Noise: 622.080MHz 666.514286MHz (622.080MHz 15/14) 669.3265MHz 20ppm over 10 year product lifetime 33.02 Pin 1 locater ink mark 25.4 Standard Frequencies:* VH1011 0C to 85C 25.4 VH1011AV-A186 622.0800MHz 8.89 17.78 max. 40ppm to 60ppm 0.381 x 0.254 x 0.051 (16 Plcs.) -4.5VDC VC -0.5VDC Date Code & Serial No: YYWW+4digit SN 4.318 max. 100KHz minimum 19.4ppm/V Kv 29.0ppm/V -60dBc @ 100Hz -90dBc @ 1KHz -110dBc @ 10KHz -125dBc @ 100KHz Power Consumption for -5VDC Supply: 65mA maximum Sub-harmonics: -35dBc maximum Dimensions: mm PIN 1 8, 9 14 12 2-7,10 FUNCTION Control Voltage Supply Voltage +5.0V Output Signal Complementary Output Ground *Consult factory for other available frequencies. PART NUMBERING SYSTEM - VH1011 VH1011 A = +5.0V H = -5.2V F = +3.3V - F = ECL U = PECL V = LVPECL Z = CML Code assigned by factory 17 Precision Oscillators / Frequency Control Devices Voltage Controlled Oscillators THRU HOLE VCXO FOR SONET - VO2386 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 2 APPLICATIONS Telecom clock Forward correction code applications SPECIFICATIONS VO2386 MODEL V02386 Standard Frequencies:* 155.520000MHz Stability All Conditions: 35ppm worst case over 20 year product lifetime Operating Temp. Range: Control Voltage Range: Modulation Bandwidth: Modulation Sensitivity: 5.1 max. 5.8 .6 .018 0C to 85C 15.2 0.0VDC to 5.25VDC 7.6 DC to 50 KHz 13.2 max. Electrical Tuning: 28ppm/V Kv 45ppm/V (other deviation upon request) 50ppm minimum to 125ppm maximum (others are available upon request) Jitter: .001 UI RMS max. Power Consumption for +5VDC Supply: 10mA to 65mA typical at +25C 20.6 max. Dimensions: mm *Consult factory for other available frequencies. PART NUMBERING SYSTEM - VO2386 VO2386 A = +5.0V H = -5.2V F = +3.3V 18 - U = PECL F = ECL 100K V = LVPECL Z = CML Code assigned by factory PIN 1 7 8 9 14 FUNCTION PIN Voltage FUNCTION VC, Control EFC Ground, 1Case/Ground Ground Q1 Output2 Signal Q2 Complementary Output 3 Output SignalSignal VCC 4 Supply Voltage Precision Oscillators / Frequency Control Devices Ovenized Crystal Oscillators SURFACE MOUNT - OC3125 FEATURES Meets or exceeds Stratum 3 requirements LVPECL output Hermetic surface mount packaging +3.3V supply APPLICATIONS Telecom clock SPECIFICATIONS MODEL OC3125 Standard Frequencies:* 77.760000MHz Stability All Conditions: Operating Temp. Range: Frequency Tolerance: Supply Voltage Range: 3 OC3125 MURATA 77.760000 MHz OC3125FV-A200 SXX S/N Date Code Location, Week and Year 4.6ppm maximum for 10 year product lifetime Frequency Murata Part Number Serial Number 0C to 70C 0.5ppm maximum at 25C +3.3VDC 5% 12.7 max. 0.406 Jitter: 0.001 UI Warm-up: 0.20ppm of 2-hour frequency after 3 minutes maximum Allan Variance: Power Consumption +3.3VDC Supply: .047 RAD 3 Plcs 1x10-9 for = 1 sec 24.003 5.08 1.15A max. for 3 minutes max. for warmup at +25C 300mA typical at +25C 8.89 21.996 17.78 *Consult factory for other available frequencies. 12.7 Ref. Only -- 7 Plcs PIN 1 2 3 4 5 6 7 FUNCTION N/C N/C + VDC Output Complementary N/C RF & Case Gnd. PART NUMBERING SYSTEM - OC3125 OC3125 F = +3.3 - V = LVPECL Code assigned by factory 19 Precision Oscillators / Frequency Control Devices Ovenized Crystal Oscillators THRU HOLE - OCXO - OC2541 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 3 OC2541 SPECIFICATIONS MODEL OC2541 Standard Frequencies:* 10.000MHz Stability All Conditions: 0.1ppm/year Operating Temp. Range: Frequency Deviation: Frequency vs Temperature: Control Voltage Range: Modulation Bandwidth: Warm-up: Phase Noise: 35.3 0.5 Freq. Adjust 26.0 max. 0.635 6.3 max. 0.8 0.1 0C to 50C 25.4 1.0ppm maximum PIN 1 2 3 4 5 0.02ppm maximum 0VDC to +6VDC DC to 150Hz minimum 6 0.1ppm typical after 3 minutes at 25C -123dBc @ 100Hz -135dBc @ 1KHz -140dBc @ 10KHz 7 8 Electrical Tuning: FUNCTION Output N/C N/C Ground N/C Freq. Control Voltage N/C +12V 5.1 5.1 Ref. Only -- 8 Plcs 2.54 10.16 10.16 22.86 20.3 27.0 0.5 Dimensions: mm TYPICAL PHASE NOISE CHARACTERISTICS - OC2541- DT -100 1ppm minimum [hp] 3048A Carrier: 10.E + 6Hz Harmonic Distortion Sine Wave Output Only: Power Consumption +15VDC Supply: +12VDC Supply: (f) [dBc/Hz] -110 -20dBc maximum 400mA maximum at startup 125mA typical at +25C 250mA maximum at startup 90mA typical at +25C -120 -130 -140 -150 -160 10 100 *Consult factory for other available frequencies. PART NUMBERING SYSTEM - OC2541 OC2541 D = +12.0V E = -15.0V 20 1k f [Hz] - K = Sine, +7dBm, 50 Ohm load H = HCMOS/TTL Code assigned by factory 10k Precision Oscillators / Frequency Control Devices Ovenized Crystal Oscillators THRU HOLE OCXO FOR SONET - OC2545 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 3 OC2545 - DT SPECIFICATIONS 35.3 0.5 MODEL OC2545 Standard Frequencies:* 10.000MHz 12.000MHz Warm-up: Phase Noise: 26.0 max. 0.635 6.3 max. 0C to 60C 0.8 0.1 4.0ppm minimum 25.4 0.2ppm maximum PIN 1 2 3 4 5 0VDC to 6VDC DC to 150Hz minimum 0.1ppm after 10 minutes at 25C -110dBc @ 10Hz -120dBc @ 100Hz -135dBc @ 1KHz -140dBc @ 10KHz 6 7 8 FUNCTION Output N/C N/C Ground N/C Freq. Control Voltage N/C +12V 5.1 5.1 Ref. Only -- 8 Plcs 2.54 10.16 20.3 10.16 27.0 0.5 22.86 Dimensions: mm OC2545 - DT 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 +25C (f) [dBz/Hz] Operating Temp. Range: Frequency Deviation: Frequency vs Temperature: Control Voltage Range: Modulation Bandwidth: Freq. Adjust -100 [hp] 3048A Carrier: 10.E + 6Hz -110 -120 -130 -140 -150 *Consult factory for other available frequencies. -160 10 100 1k 10k 100k f [Hz] PART NUMBERING SYSTEM - OC2545 OC2545 D = +12.0V - K = Sine, +7dBm, 50 Ohm load H = HCMOS/TTL Code assigned by factory 21 Precision Oscillators / Frequency Control Devices Ovenized Crystal Oscillators THRU HOLE - OCXO FOR SONET - OC2566 FEATURES Meets or exceeds Stratum 3 requirements Sine Wave, HCMOS compatible output DIP packaging SC cut crystal APPLICATIONS Telecom clock Instrumentation Navigation Communications VSAT 3 SPECIFICATIONS OC2566 MODEL OC2566 Standard Frequencies:* 3.000MHz Stability All Conditions: 0.20ppm maximum per year 8 -- 32 SERL Screw 44.45 max. Operating Temp. Range: Frequency vs Temperature: Warm-up: Frequency Adjustment: Power Consumption +15V Supply: +27V Supply: 28.448 6.35 -30C to 70C 5.08 25ppb maximum 0.1ppm after 5 minutes at 25C 71.12 max. 58.42 29.21 6.35 1.0ppm minimum from nominal 22.86 Ref. Only -- 5 Plcs 5.08 60.96 max. 45.72 50mA typical 400mA maximum 3.048 Output Level: +13dBm to +18dBm (@50 Ohm load) Harmonic Distortion: -20dBc maximum PIN 1 2 3 4 5 *Consult factory for other available frequencies. CONNECTIONS RF Output Case Ground +15V OSC Input Ground +27V Oven Input 22.86 PART NUMBERING SYSTEM - OC2566 OC2566 E = +15.0V 22 1.65 .127 1.016 - H = HCMOS K = Sine, +7dBm, 50 Ohm load M = Sine, +13dBm, 50 Ohm load Code assigned by factory 45.72 Dimensions: mm Precision Oscillators / Frequency Control Devices Ovenized Crystal Oscillators THRU HOLE OCXO FOR SONET - OC2644 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 3 OC2644 SPECIFICATIONS MODEL OC2644 10.000MHz 13.000000MHz 15.000MHz 16.384MHz 19.440MHz Standard Frequencies:* Operating Temp. Range: PIN 1 2 3 4 5 12.7 0.56 0.20 5.72 0.64 0.76 0.13 0C to +70C FUNCTION Control Voltage Ref. Voltage Supply Voltage RF Output Ground Ref. Only- 5 Plcs. 36.01 25.4 Frequency Stability: Control Voltage Range: 12.7 10ppb 0VDC to +4.0VDC 10.16 5.08 Warm-up: 0.1ppm of 24-hour frequency after 30 minutes at 25C, worst case Allan Variance: 1x1010 maximum for = 1 sec Phase Noise: -115dBc/Hz @ 10Hz -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 Consumption: 750mA maximum at start up, 200mA typical at +25C 17.78 27.18 8.89 Dimensions: mm (f) [dBc/Hz] TYPICAL PHASE NOISE (OC2644) -100 -110 -120 -130 -140 -150 -160 -170 (hp) 3048A Carrier: 10.E + 6Hz 10 100 *Consult factory for other available frequencies. 1k f [Hz] 10k 100k PART NUMBERING SYSTEM - OC2644 OC2644 D = +12.0V A = +5.0V - H = HCMOS K = Sine, +7dBm, 50 Ohm load Code assigned by factory 23 Precision Oscillators / Frequency Control Devices Ovenized Crystal Oscillators THRU HOLE OCXO FOR SONET - OC2710 FEATURES Meets Stratum 3 requirements HCMOS compatible output 14 pin DIP packaging APPLICATIONS Telecom clock A variety of power supply options Instrumentation Wireless communication 3 SPECIFICATIONS OC2710 MODEL Standard Frequencies:* Stability All Conditions: OC2710 muRata OC2710AH A207 SYM S/N 16.384MHz 19.440MHz 20.480MHz 4.6ppm maximum for 10 year product lifetime Operating Temp. Range: 0C to +60C Frequency Deviation: Control Voltage Range: 0.5ppm maximum at 25C Date Code (Y) Year (M) Month Serial Number Pin One 12.7 Max. 5.842 Min. 0.457 +0.5VDC to +4.5VDC Warm-up: 0.2ppm of 24-hour frequency after 30 minutes at 25C Electrical Tuning: 10ppm to 16.5ppm Power Consumption For +5VDC Supply: 800 mA maximum at start-up, 200 mA typical stable at +25C 0.457 5 Plcs. Ref. Only -4 Plcs. CL 13.208 Max. 7.62 *Consult factory for other available frequencies. Possible frequency ranges of 5MHz to 45MHz. 15.24 20.574 Max. CL PIN 1 7 8 14 CONNECTIONS N/C Ground RF Output +5 Dimensions: mm PART NUMBERING SYSTEM - OC2710 OC2710 A = +5.0V F = +3.3V Note: Consult factory for other supply options available. 24 - H = HCMOS Code assigned by factory Precision Oscillators / Frequency Control Devices Ovenized Crystal Oscillators THRU HOLE OCXO FOR SONET - OC3545 FEATURES Meets or exceeds Stratum 3 requirements Sine Wave or HCMOS/TTL compatible output Low phase noise APPLICATIONS Telecom clock Instrumentation Navigation Communications 3 SPECIFICATIONS OC3545 MODEL OC3545 9.830400MHz 12.800000MHz 14.1364MHz 15.00MHz 17.000000MHz Standard Frequencies:* Murata Part No. Date Code (Location, Month and Year) Stability All Conditions: 4.6ppm for 20 years product lifetime max. Operating Temp. Range: 0C to +70C Frequency Tolerance: 0.5ppm at 25C Warm-up: Phase Noise: Power Consumption +3.3V Supply: +5.0V Supply: OC3545FH-1700 17.000000 MHz SXX SN Frequency Serial No. 10.16 max. 0.508 min. 50.5 0.10ppm of 24-hour frequency after five minutes -95dBc @ 10Hz -125dBc @ 100Hz -140dBc @ 1KHz 0.7620.1--5 Plcs Ref. Only -- 5 Plcs 25.4 19.05 10.0 1.15 A maximum at turn on 330mA typical stable at +25C 750mA maximum at turn on 200mA typical stable at +25C 10.0 19.05 25.4 *Consult factory for other available frequencies. Standoff-- 5 Plcs Material is a Conductor. PIN 1 2 3 4 5 CONNECTIONS RF Output GND/Case N/C Oven Status VCC Dimensions: mm PART NUMBERING SYSTEM - OC3545 OC3545 A = +5.0V F = +3.3 - J = Sine, +3dBm, 50 Ohm load H = HCMOS Code assigned by factory 25 Precision Oscillators / Frequency Control Devices Crystal Oscillators SURFACESurface MOUNTMount CRYSTAL - Crystal OSCILLATOR Oscillator FOR for SONET - XO2246 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 4 XO2246 MODEL X02246 Standard Frequencies:* 155.520000MHz 166.628500MHz Stability: 20ppm worst case over 20 year product lifetime Operating Temp. Range: 0C to 70C Jitter: .001 UI RMS max. Phase Noise: -80dBc @ 100Hz -110dBc @ 1KHz -135dBc @ 10KHz -140dBc @ 100KHz Power Consumption: Murata Part Number Frequency Date Code Location, Month & Year XO2246HF-A213 155.520000 MHz SXX Pin 1 Location 5.51 max. 1.02 2.03 3.56 13.97 max. 5.08 2.54 Ref. Only -- 6 Plcs 65mA typical at +25C 8.89 *Consult factory for other available frequencies. 1.45 0.71 1.68 PIN 1 2 3 4 5 6 CONNECTIONS N/C N/C Supply Voltage Q Output Q Output Ground Dimensions: mm PART NUMBERING SYSTEM - XO2246 XO2246 A = +5.0V H = -5.2V F = +3.3V 26 - F = 100K ECL U = PECL V = LVPECL Code assigned by factory Precision Oscillators / Frequency Control Devices Crystal Oscillators SURFACE MOUNT CRYSTAL OSCILLATOR FOR SONET - XO2266 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 XO2266 MODEL DC2300 Standard Frequencies:* 155.520000MHz Stability: 15ppm worst case over 10 year product lifetime Operating Temp. Range: Power Consumption: Murata Part Number XO2266AV- A206 155.520000 MHz SXX Frequency Date Code Location, Month & Year 0C to 70C 4 Pin 1 Location 85mA maximum 5.97 max. *Consult factory for other available frequencies. 14.22 max. 5.08 2.54 Ref. Only -- 4 Plcs 11.43 max. 2.54 0.76 PIN 2 4 7 9 CONNECTIONS Enable/Disable Ground Output Vcc Dimensions: mm PART NUMBERING SYSTEM - XO2266 XO2266 A = +5.0V U = PECL - Code assigned by factory 27 Precision Oscillators / Frequency Control Devices Crystal Oscillators SURFACESurface MOUNTMount CRYSTAL - Crystal OSCILLATOR OscillatorFOR 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 SPECIFICATIONS 4 MODEL X02286 Standard Frequencies:* 155.520000MHz 167.331646MHz Stability: 20ppm worst case over 10 year product lifetime Operating Temp. Range: 0C to 85C Jitter: .001 UI RMS max. Phase Noise: -60dBc @ 100Hz -90dBc @ 1KHz -110dBc @ 10KHz -125dBc @ 100KHz Power Consumption: 20mA max. 20.57 max. Murata Part Number Date Code Location, Year and Week 155.520000 MHz XO2286FV- A224 SXX S/N 13.46 max. Pin 1 Location 0.51 5.72 max. 1.73 0.71 Ref. Only -- 6 Plcs *Consult factory for other available frequencies. 1.73 2.54 min. 12.70 15.24 2.54 PIN 1 6 7 8 9 14 CONNECTIONS No Connect No Connect Ground Output Signal Complementary Output Vs Supply Voltage Dimensions: mm PART NUMBERING SYSTEM - XO2286 XO2286 F = +3.3V 28 LV = LVPECL - Code assigned by factory Precision Oscillators / Frequency Control Devices Digitally Compensated Crystal Oscillators Surface Mount DC2300- SERIES Crystal Oscillator FOR SONET for SONET 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 DC2300 MODEL DC2300 Standard Frequencies:* 10.00000MHz Stability All Conditions: Operating Temp. Range: Control Voltage Range: Allan Variance: 12.7 7.9 .03 dia. 0.1ppm to 0.5ppm 20.3 10.2 3.8 -40C to 85C 0VDC to +5VDC 50.8 5x10 at one second -10 -90dBc @ 10Hz -125dBc @ 100Hz -140dBc @ 1KHz -140dBc @ 10KHz Phase Noise: Electrical Tuning: .5ppm min. for 0 to +5V Power Consumption +5VDC Supply: 35mA typical 12.7 25.4 50.8 PINS 1 2 3 4 5 CONNECTIONS Output Serial I/O GND +5 GND 5 Dimensions: mm *Consult factory for other available frequencies. PART NUMBERING SYSTEM - DC2300 DC2300 A = +5.0V - H = HCMOS Code assigned by factory 29 Precision Oscillators / Frequency Control Devices VCOs Surface Mount - Crystal Oscillator for SONET G 5.50.2 7.60.2 C G C G P D B B P : OUTPUT B : POWER SUPPLY C : CONTROL VOLTAGE S : SWITCHING VOLTAGE G : GROUND 1 2 3 B 1.30.3 2.60.3 4.60.3 S G P 1.30.1 2.00.1 4.00.3 G 1 2 MQE95 SERIES MQK SERIES 6 MQL SERIES MQW1 SERIES 30 Terminals : Gold plating : Solder 1.8 max. 5.00.2 Series G M 0.60.3 4.60.3 MQL Series G 11 G 7 6 W 1 1 1 8 9 7 M 1 7 4 7 C 2 D 1 B P (in mm) 1.80.2 1 2 3 4 5 B 3 G 8 P 2 3 1 4 12 2 5 1.8 (PITCH) x 4 = 7.2 (in mm) Frequency Range 7 6 7.80.2 9.60.2 MQW1 Series 12 10 9 8 PART No. MANUFACTURER'S MARK AND LOT No. 1 : Year 2, 3 : Week No. 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. 11 3 1.60.2 D C G 1.20.3 G C 10 9 3.00.3 P 4.00.2 G M 1.00.1 0.60.3 1.20.3 M 1.8 max. 2.20.1 4.20.1 (in mm) 0.60.3 B 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. MQK Series 0.70.15 0.80.15 MQE95 Series G C PART No. MANUFACTURER'S MARK AND LOT No. 1 : Year 2, 3 : Week No. 5.50.2 G 0.65 max. G 1.30.3 M 3.70.3 Lot No. D : Factory Code 1 : Year 2,3 : Week No. 2.40.2 C D1 2 3 1.00.3 5.20.2 M G 2.60.3 1.30.3 4.80.2 551323 M1482A2 G 1.00.3 PART NO. MANUFACTURER'S MARK AND LOT NO. 7.00.2 P 5.80.2 G 1.80.2 S PART No. MANUFACTURER'S MARK AND LOT No. 1 : Year 2, 3 : Week No . 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 Size (mm) 700 to 2000MHz (Shift VCO) 7.6 X 5.8 X 1.8 700 to 2000MHz 5.5 X 4.8 X 1.65 700 to 2600MHz 5.0 X 4.0 X 1.65 700 to 2000MHz (Dual VCO) 9.6 X 7.0 X 1.65 (in mm) Precision Oscillators / Frequency Control Devices Microwave Oscillators VOLTAGE Surface CONTROLLED Mount - Crystal (VCO) -Oscillator MQE900/MQK/MQL for SONETSERIES MQ Series Application (System) Frequency (MHz) Part Number VB Vc (V) Control Voltage Sensitivity (MHz/V) Output Level (dBm) Power Consumption (mA Max) C/N Separation (DBc/Hz) (KHz) MQK Series GSM/DCS 1stLO MQK001-927 CDMA 1stLO MQK002-967 880.0975.0 TDMA 1stLO MQK001-1016A WLL 1stLO MQK301-1528 1stLO WCDMA 1stLO JCDMA 1stLO MQL005-717 MQL001-760 MQL304-2330 MQL002-946 PHS 1stLO MQL3H2-1668 PDC1.5G 1stLO MQL302-1619 DCS1800 1stLO GSM1900 1stLO 0.5~2.3 71 10 -6 3 92 250.0 118 60.0 8.0 BERS 7.0ON 117.5 M N T 32 3U -0.5 2.5 R A P LY 120.00 NOT A2.70LL 0.5~3.65 R70E 10CUR1 R 1466.01590.0 3 ENT 12.0 A THIS PAGE E -2C 3ONT6.6ACT 92 S E L P 680.0755.5 2.30 LE 0.5~2.5 50 A 5 . A AVAILA2.50B 0.5~2.0 CA 760.0760.0 20 L 4 MU -3 R 2.5AT 4.5 135 O L R U O 2300.02360.0 Y 2.20 0.5~3.5 50 9 8.5 90 IV-00E33 FOR10.0 T A T N E S 920.0972.0 3.70 0.6~3.0 32.5 4.5 83 E R RE2.70P 0.5~2.2 35 5 RM-6.5 ATION8 . 110 1648.01688.0 O F IN D E T A D 0.45~2.45 27 6 UP2.50 1607.051631.05 -3 3 7 100 MQL Series EPDC 2.80 954.0980.0 2.95 0.7~2.7 981.01052.0 2.50 0.9~3.65 24 6 -1.5 3 8.5 60.0 600.0 250.0 10000.0 10.0 10.0 100.0 100.0 MQL302-1840 1790.01891.0 3.70 0.6~3.0 63.5 8 03 10.0 143 3000.0 MQL302-1960 1920.02000.0 3.70 0.6~3.0 55 7 03 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 VCO TYPICAL CHARACTERISTICS C/ N Level Test Circuit 0 -10 -20 -30 -40 -50 FM Linear Detector -60 P B 1000P + - 4.7 -70 Controlled Power Supply -80 -90 100k -110 -120 -130 -140 -150 -160 -170 C M 1000P 1000P + 4.7 -100 - + - +B Power Supply RS Oscillator 1 6 1k 100 10k 100k L(f) [dBc/Hz] vs. f[Hz] 1M 10M 40M MOUNTING AND PACKAGING - MQE9 Recommended Mounting Dimensions: mm B GND Reflow Soldering Conditions C GND 3.4 1.1 2.3 Temperature (C) P G N D 1.9~2.1 220 10 G N D M 1.1 2.2 2.9~3.1 3.4 4.3 150 50 sec. 60 sec. Time Taping Specifications: mm +0.1 1.5 -0 180 Reel Dimensions: mm 2 0.2 4.0 0.1 2 MQE9- -T7 T7 = 3000pcs./reel 1.75 0.1 2.0 0.1 25 R4 25.5 6 2 +- 0.2 0 13 0.2 100 0.3 120 94 0.5 330 +0.5 -1 5 90 50 25 0.5 16.0 0.2 2.20.2 MQE920 -1774 D12 MQE920 -1774 D12 MQE920 -1774 D12 7.5 0.1 12.0 0.1 VCO 2.6 0.1 31 Precision Oscillators / Frequency Control Devices PLL Modules Surface Mount - Crystal Oscillator for SONET 8.20.2 0.80.2 1.50.2 12 11 10 9 8 7 1 2 3 4 5 6 1.20.2 H F Q D 0 8 Q M A 0 1 6.20.2 3.00.2 12.60.3 4 1 2 3 4 5 6 2.0 max. 12 11 10 9 8 7 PART No. MANUFACTURER'S MARK AND LOT No. 1 : Factory Code 2 : Year 3, 4 : Week No. 1 : LD 2 : Do IF 3 : fin IF 4 : Vcc VCO 5 : Vcc PLL 6 : RF OUT HFQC80 Series PART No. MANUFACTURER'S MARK AND LOT No. 1 : Factory Code 2 : Year 3, 4 : Week No. 7 : PS 8 : LE 9 : DATA 10: CLK 11: GND 12: TCXO IN HFQD08 Series 1.70.2 161514 13 121110 3.00.2 1.40.2 0.80.1 8.60.3 1. VccRFVCO 2. PoRF 3. PS (RF) 4. GND 5. LD 6. PoIF 7. VccIFVCO 8. GMD 9. GND (in mm) Series RF/Local Frequency Limits 9 8 7 1 1 10. TCXOin 11. PS (IF) 12. VccPLL 13. GND 14. CLOCK 15. LE 16. DATA 17. GND 18. GND 1 6 HFQ S80Q MA01 2 3 HFQS80 Series : Solder 2 4 1 : TCXO IN 2 : Vcc VCO 3 : GND 4 : Output 5 : Vcc PLL IF/Local Frequency Limits Module Structure 2 3 4 3 4 5 10 9 8 7 6 PART No. MANUFACTURER'S MARK AND LOT No. 1 : Factory Code 2 : Year 3, 4 : Week No. 6 : PS 7 : CK 8 : DT 9 : LE 10: LD (in mm) 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 7 32 5 6.20.2 4.10.2 PART NO.MANUFACTURER'S MARK AND LOT NO. 1. Year 2,3. Week No. 1.20.1 6.90.2 Max. 2.0 1 2 3 4 5 6 7 9.80.2 HFQD80 Series 10 8.00.3 8 8.00.2 1.80.2 1.00.1 2.0 max. M 9 D 1 2 3 8 : TCXO in 9 : LD 10: Vcc PLL 11: GND 12: CLOCK 13: LE 14: DATA (in mm) 9.80.3 8.00.2 HFQD80Q M A01 18 1.10.1 1 : Vcc RF VCO 2 : Po RF 3 : PS (RF) 4 : GND 5 : PS(IF) 6 : Po IF 7 : Vcc IF VCO 10.80.2 (in mm) 17 4 1.30.1 3 3 7.00.2 2 2 2.0 max. 1 1 1 2 3 4 5 6 7 2.30.2 8.00.3 HFQ C80Q MA01 14 13 12 11 10 9 8 8.60.3 9.80.3 Precision Oscillators / Frequency Control Devices Microwave Oscillators PHASE LOCK Surface LOOP Mount MODULE - Crystal - HFQD08/HFQS14/HFQS80 Oscillator for SONET SERIES PLL MODULES Application VICS Tx/Rx Supply Voltage (1) (V) Output Level (dBm) Power Consumption (mA max.) C/N (2) (dBc/Hz min.) Lock-up Time (msec.max.) 2489 3.0 0.2 03 23 -110 5.0 741.5 19.5 2.8 0.1 -4 2.5 20 -138 5.0 5820 25 5.0 (3.0) 03 37 -- 1.0 HFQS80Q2489MA01 N-CDMA800 Tx/Rx HFQD08B740M440A01 ISM5.8 HFQS14D5820MA01 Tx/Rx Operating Frequency Range (MHz) Part Number (1) = Vcc1 (3.0) for VCO + Doubler, Vcc1 (5.0) for PLL-IC (2) = Separation (kHz) BLOCK DIAGRAM Rx AMP Rx BPF MIXER Rx IF FILTER THIS N O S ER LO BBPF M LE. U B N A L T I AVA L PAR Y L L T A N T Rx L CA RE NO O R L U R C PLL-MODULE E TCXO CPLLTICYOU R A E VCO FOR TA PAG DUPLEXER E N V O I T C E TA PLEAS REPRESEN ATION. Tx M TA R PLL-MODULE O F N MURA I PLL IC D E UPDAT ISOLATOR PA Tx BPF VCO MOD Tx 7 33 All information contained in this catalog is available in PDF downloadable format at www.murata.com. (R) Marketing Communications 2200 Lake Park Drive Smyrna, Georgia 30080 Tel: 770-436-1300 Fax: 770-436-3030 www.murata.com (c) 2001, Murata Electronics North America, Inc. 02/02