QVMQF574T33-2.0A-45.1584

QMQF576 Series Temperature Compensated Crystal Oscillator (TCXO) QVMQF576 Series TCXO with Voltage Control Function (VCTCXO) MERCURY Since 1973 QMQF576 and QVMQF576 are QuikXO™ (Quick-turn Crystal Oscillator) versions of the MQF576 (TCXO) and VMQF576 (VCTCXO) series, respectively. QuikXO™ standard and custom frequency oscillators are manufactured and drop-shipped from Southern California USA in 3 to 5 days. This package size measures 7.0 x 5.0 x 2.5 mm SMD, while the supply voltage can be either +2.5 V or +3.3 V and the output logics include differential LVEPCL or LVDS (up to 1.5 GHz). The typical phase jitter measures 0.8 ~ 1.6 ps with a low current consumption (43 mA typical for LVPECL 622.080 MHz at 3.3 V) as compared to other oscillators. Ideal for multimedia, Ethernet, and networking applications. General Specifications: at Ta=+25°C Output Logic Type LVPECL (code “P”) LVDS (code “D”) TCXO Models MQF576P25 MQF576P33 MQF576D25 MQF576D33 VCTCXO Models VMQF576P25 VMQF576P33 VMQF576D25 VMQF576D33 Frequency Range Supply Voltage (VDD) Current Consumption (mA; typical) Load; typical 10 ~ 1500 MHz 10 ~ 1500 MHz +2.5 V ±5% +3.3 V ±5% +2.5 V ±5% +3.3 V ±5% Code “25” Code “33” Code “25” Code “33” 18 MHz: 28 156 MHz: 30 622 MHz: 33 1289 MHz: 37 1500 MHz: 43 18 MHz: 35 156 MHz: 38 622 MHz: 43 1289 MHz: 51 1500 MHz: 52 11 MHz: 19 190 MHz: 23 390 MHz: 24 1289 MHz: 31 1500 MHz: 34 11 MHz: 22 155.5 MHz: 26 250 MHz: 26 1080 MHz: 32 1500 MHz: 35 50 Ω into Vcc - 2.0 V or Thevenin equivalent 100 Ω across the outputs Output “High” Voltage; (VOH) VDD-1.03 V min.; VDD-0.6 V max. 1.4 V typical; 1.6 V max. Output “Low” Voltage; VOL VDD-1.85 V min.; VDD-1.6 V max 1.1 V typical; 0.9 V min. Rise Time (Tr) / Fall Time (Tf) 0.2 nS Typ.; 0.5 nS max. (20% ↔ 80% waveform ) Additional Output AC Characteristics for LVDS output (LVDS only) Frequency Stability Differential Output Voltage (VOD): 175 mV min.; 350 mV typ. VOD Magnitude Change (ΔVOD): 50 mV max. Offset Voltage (Vos): 1.25 V typical Vos Magnitude Change (ΔVos): 50 mV max. N/A Stability Temperature 0.2 nS Typ.; 0.4 nS max. (20% ↔ 80% waveform ) ±1.0 ppm ±2.0 ppm ±2.5 ppm 2.5B QuikXO products are standardized to 1.0/-40+85 note 2, 2.0A, and 2.5B stabilities. Available Available -30 to +85°C (B) Available -40 to +85°C (A) 1.0/-40+85 2.0A note 2 Part number example for the ±1.0 ppm: MQF574T33-125.000-1.0/-40+85 MERCURY www.MercuryUnited.com Taiwan: TEL (886)-2-2406-2779, e-mail: sales-tw@mercury-crystal.com U.S.A.: TEL (1)-909-466-0427, e-mail: sales-us@MercuryUnited.com MERCURY Page 1 of 6 Dec. 12, 2022 Version: a4 Voltage Change ±0.2 ppm max. for a ±5% input voltage change Load Change ±0.2 ppm max. for a ±10% load condition change Aging at Ta =+25°C ±2 ppm max. first-year; ±10 ppm max. over 10 years Reflow ±1.0 ppm max., one reflow and measured 24 hours afterward. Initial Calibration Tolerance (Initial Frequency Accuracy) ±1.0 ppm typical; ±2.0 ppm. max. at +25°C±2°C. Duty Cycle 50% ±5%. At 50% VDD. Current with Output Disabled 18 mA typical Start-up Time 5 m. sec. max. Output Enable Time 200 ns max. Output Disable Time 50 ns max. Control Voltage Function on Pad 1 (VCTCXOs only) Control Voltage (Vcontrol) Frequency Pulling Range Vcontol center and range: +1.5 V ± 1.0 V. For both 2.5 VDD and 3.3 VDD High pull: +8 ppm min. for Vcontol from 1.5 V to +2.5V Low pull: - 8 ppm min. for Vcontol from 0.5 V to +1.5V Linearity ±5% typical. ±10% max. Transfer Function Positive Transfer Input Impedance 500 KΩ min. Bandwidth 10 kHz min. Measured at -3 dB. Output HIGH Enable (OE) Output Enable Time Output Disable Time Frequency (MHz) 25 49.152 50 100 156.250 600 1030 1080 1270 1450 Supply Voltage Output Logic 10 Hz 100 Hz 1 kHz 10 kHz 100 kHz 1 MHz 5 MHz 10 MHz 20 MHz 3.3 P 3.3 D 3.3 D 3.3 D 3.3 P 3.3 P 3.3 P 3.3 D 3.3 D 3.3 D -61 -106 -125 -132 -133 -151 -153 – – -85 -108 -121 -126 -127 -146 -154 -157 -160 -80 -103 -117 -124 -127 -145 -148 -150 -152 -73 -96 -109 -119 -120 -138 -143 -145 -144 -63 -91 -109 -115 -116 -137 -147 -150 -155 -59 -81 -96 -102 -104 -125 -132 -136 -139 -53 -75 -93 -94 -97 -119 -129 -133 – -49 -81 -93 -98 -99 -120 -128 -133 -142 -49 -78 -91 -94 -97 -117 -128 -133 -142 -52 -78 -89 -92 -94 -118 -129 -133 – 1.2 1.4 Offset Single Side-band Phase Noise (dBc/Hz; typical) Tri-State function on Pad 2 70% of VDD (min.) to enable output. CMOS level. Do not leave this pin floating. If no connection is desired, please contact Mercury. 30% of VDD (max.) to disable the output. Output is high impedance. 200 n. sec. max. 50 n. sec. max. Integrated Phase Jitter, RMS 1.0 1.0 1.1 1.3 1.1 1.1 1.4 1.1 12 kHz to 20 MHz; picosecond For 0.6 ps typical phase jitter requirement: Please choose MQN576 (TCXOs) and VMQN576 (VCTCXO) series. MERCURY Page 2 of 6 Dec. 12, 2022 Version: a4 Absolute Maximum Rating: Input Voltage Output Voltage Positive Supply Voltage -0.5 V to VDD+0.5 V -0.5 V to VDD+0.5 V 4.2 V Human Body Model (HBM): Exceeds 2000 V. Class 2 per MIL-STD-1686C Machine Model (MM): Exceeds 120 V. Class M2 per MIL-STD-1686C. Note: Power, ground, and outputs are 200 V. Charged-Device Model (CDM): Exceeds 2000 V. Class C6 per MIL-STD-1686C Electrostatic Discharge (ESD) Environmental Performance Specifications Moisture Sensitivity Level RoHS compliant, Pb (lead) free per EU Directive 2002/95/EC 6/6 (2002/95/EC) and WEEE (2002/96/EC). Free of halide, cadmium, hexavalent chromium, lead, mercury, PBB’s, and PBDE’s. Level 2 per IPC/JEDEC J-STD-020D.1 Storage temperature range -55 to +125°C Humidity 85% RH, 85°C, 48 hours Fine Leak / Gross Leak MIL-Std-883, method 1014, condition A / MIL-Std-883, method 1014, condition C Solderability MIL-STD-202F method 208E Reflow 260°C for 10 sec. 2X. Vibration MIL-STD-202F method 204, 35G, 50 to 2000 Hz Shock MIL-STD-202F method 213B, test condition. E, 1000GG ½ sine wave Resistance to Solvent MIL-STD-202, method 215 Temperature Cycling MIL-STD-883, method 1010 Gold (0.3 um to 1.0 um) over nickel (1.27 um to 8.89 um) Green Requirement Pad Surface Finish Part Number Format and Examples: Example 1: QVMQF576D33-2.0A-125.000; QVMQF QMQF Product Series “QMQF”: TCXO “QVMQF”: VCTCXO 576 576 Example 2: QMQF576P25-2.5B-148.500; D P Package Code Output Logic “576”: 7.0x5.0 “P”: LVPECL mm 6-pad SMD “D”: LVDS 33 25 2.0A 2.5B - Voltage code’’’’’’’’’’’’’’’’’’’ ’’’’’’’’’’’’’’’’’’’’’’’’’’ ’’’’’’’’’’’’’’’’’’’’’’’’’’ ’’’’’’’’’’’’’’ “33” for 3.3V “25” for 2.5V “2.0A”: The freq. stability is ±2.0 ppm over -40 to +85°C “2.5B”: The freq. stability is ±2.5 ppm over -30 to +85°C - 125.000 148.500 The nominal Frequency in MHz. 3 places minimum after the decimal point. Output Tri-state Function Note: Do not leave the Tri-state pad floating. VDD Pad 2 OE Function VIH VIL Disable Time Enable Time High Impedance MERCURY Page 3 of 6 Dec. 12, 2022 Version: a4 Package Dimensions and Recommended Solder Pad Layout Pad 1 Pad 2 Pad 3 Pad 4 Pad 5 Pad 6 unit: (mm) TCXO VCTCXO Standard: No Connection. Control Voltage Option: Tri-state. Standard: Tri-state Tri-state Option: No connection note 2: For TCXOs, both pad 1 and 2 can be all no connection. Please contact Mercury. Ground LVPECL or LVDS output Complementary LVPECL or LVDS output Supply Voltage Related Products: QuikXO (Quick-turn Build in 3 to 5 Days) QMQF576 and QVMQF576 ● No re-qualification required if MQF576 or VMQF576 are approved note 1 Non-QuikXO (High Volume Standard Lead Time) MQF576 and VMQF576 ● No re-qualification required if QMQF576 or QVMQF576 are approved note 1 If smaller footprint is desired: Please choose QMQF326 and QVMQF326. Identical electrical specs. with a 6-pad 3.2x2.5x1.6 mm package If even lower phase noise is required: Please choose. MQN576 and VMQN576 note 1 If smaller footprint is desired: Please choose MQF326 and VMQF326. Identical electrical specs. with a 3.2x2.5x1.6 mm package Q(V)MQF576 and (V)MQF576 are manufactured at different Mercury facilities using the identical designs, raw materials and production processes. Once either one is approved, Mercury recommends to include both the QuikXO and the Non-QuikXO part numbers of your referenced part on your BOM to take advantage of the QuikXO short lead- times and the Non-QuikXO low-cost high-volume production offerings. E.g. 1, if the QuikXO QVMQF576D33-2.0A-125.000 oscillator is qualified, then the Non-QuikXO VMQF576D33125.000-2.0/-40+85 should also be on the same BOM. E.g. 2, if the QuikXO QMQF576P25-2.5B-148.500 oscillator is qualified, then the Non-QuikXO MQF576P25148.500-2.5/-30+85 should also be on the same BOM. MERCURY Page 4 of 6 Dec. 12, 2022 Version: a4 Test Circuits and Output Waveforms 𝑇1 Duty cycle=(𝑇2) ∗ 100%. Measured at 50% VDD LVPECL M E C LVDS Phase Noise Plot of QMQF576P33-156.250 MHz, VDD=+3.3V, LVPECL MERCURY Page 5 of 6 Dec. 12, 2022 Version: a4 Recommended Solder Reflow Profile (per IPC/JEDEC J-STD-020D.1) Tp Tsmax Te m pe rat ur e TL Max. Ramp Up Rate=3°C/s Max. Ramp Down Rate=6°C/s Preheat Area t p tL Tc-5°C User Tp≤Tc Tc Tsmin Tc-5°C User tp t s 25 Time 25°C to Peak Time Profile Feature Sn-Pb Eutectic Assembly Pb-free Assembly Ramp-up rate (TL to Tp) 100⁰C 150⁰C 60 to 120 seconds 3⁰C / sec. max. 150⁰C 200⁰C 60 to 180 seconds 3⁰C / sec. max. Liquidous temperature (TL ) Time (tL) maintained above TL 183⁰C 60 to 150 seconds 217⁰C 60 to 150 seconds Peak package body temperature (Tp) 235⁰C 260⁰C Time (Tp) within 5⁰C of the classification temperature Tc 10 to 30 seconds 20 to 40 seconds Ramp-down rate (Tp to TL) 6⁰C / second max. 6⁰C / second max. Time 25⁰C to peak temperature 6 minutes max. 8 minutes max. Preheat/Soak - Temperature min. (Ts min.) - Temperature max. (Ts max.) - Time (ts) (Ts min. to Ts max.) All temperatures refer to the topside of the package, measured on the package body surface. MERCURY Page 6 of 6 Dec. 12, 2022 Version: a4