VCC1 series 1.8, 2.5, 3.3, 5.0 volt CMOS Oscillator Features * CMOS output * Output frequencies to 190 MHz * Low jitter, Fundamental or 3rd OT Crystal * Tristate output for board test and debug * -10/70 or -40/85 C operating temperature * Gold over nickel contact pads * Hermetically sealed ceramic SMD package * RoHS/Lead Free Compliant construction The VCC1 Crystal Oscillator Applications * SONET/SDH/DWDM * Ethernet, Gigabit Ethernet * Storage Area Network * Digital Video * Broadband Access * Microprocessors/DSP/FPGA Description Vectron's VCC1 Crystal Oscillator (XO) is quartz stabilized square wave generator with a CMOS output, operating off either a 1.8, 2.5, 3.3 or a 5.0 volt supply. fo Output Buffer / Disable Vectron International 267 Lowell Road, Hudson NH 03051 The VCC1 is uses fundamental or 3rd overtone crystals resulting in low jitter performance, typically 0.5pS rms in the 12 kHz to 20MHz band. Also a monolithic IC, which improves reliability and reduces cost, is hermitically sealed. Tel: 1-88-VECTRON-1 e-mail: vectron@vectron.com Performance Characteristics Table 1. Electrical Performance, 5V option Parameter Symbol Frequency fO 1 Operating Supply Voltage VDD Absolute Maximum Supply Voltage Supply Current, Output Enabled IDD 0.012 to 20 MHz 20.01 to 50 MHz 50.00 to 85 MHz 85.01 to 125 MHz Supply Current, Out disabled IDD Output Logic Levels Output Logic High2 VOH Output Logic Low2 VOL Output Logic High Drive IOH Output Logic Low Drive IOL Output Rise/Fall Time2 tR/tF 0.012 to 20.00 MHz 20.01 to 50.00 MHz 50.01 to 125.00 MHz Duty Cycle3 (ordering option) SYM Operating temperature (ordering option) Stability4 (ordering option) RMS Jitter, 12kHz to 20 MHz Period Jitter, RMS Output Enable/Disable5 Output Enabled Output Disabled Internal Enable Pull-Up resistor5 Start-up time Min 0.012 4.5 -0.7 Typical Maximum 125.000 5.5 7.0 15 30 50 60 30 0.9*VDD 0.1*VDD 16 16 Units MHz V V mA uA V V mA mA ns 8 5 2 45/55 -10/70 or -40/85 20, 25, 32, 50, 100 0.5 1 2.5 % C ppm ps ps V 4.0 0.8 100 10 Kohm ms 1. A 0.01uF and a 0.1uF capacitor should be located as close to the supply as possible (to ground) is recommended. 2. Figure 1 defines these parameters. Figure 2 illustrates the operating conditions under which these parameters are tested and specified. 3. Symmetry is measured defined as Vs, On Time/Period. 4. Includes calibration tolerance, operating temperature, supply voltage variations, aging and shock and vibration (not under operation). 5. Output will be enabled if enable/disable is left open. tR tF I DD V OH 50% VD D V OL + - 4 . 1F .01F 1 2 3 IC On Time VC Period Figure 1. Output Waveform Vectron International 267 Lowell Rd, Hudson NH 03051 + 15pF - Figure 2. Typical Output Test Conditions (255C) Tel: 1-88-VECTRON-1 e-mail: vectron@vectron.com VCC1 Data sheet Table 2. Electrical Performance, 3.3V option Parameter Symbol Frequency fO Operating Supply Voltage 1 VDD Absolute Maximum Operating Voltage Supply Current, Output Enabled IDD 0.012 to 20 MHz 20.01 to 50 MHz 50.00 to 85 MHz 85.01 to 189 MHz Supply Current, Output disabled IDD Output Logic Levels Output Logic High2 VOH Output Logic Low2 VOL Output Logic High Drive IOH Output Logic Low Drive IOL Output Rise/Fall Time2 tR/tF 0.012 to 20.00 MHz 20.01 to 50.00 MHz 50.01 to 90.00 MHz 90.01 to 189.00 MHz Duty Cycle3 (ordering option) SYM Operating temperature (ordering option) Stability4 (ordering option) RMS Jitter, 12kHz to 20 MHz RMS Jitter Output Enable/Disable5 Output Enabled Output Disabled Internal Enable Pull-Up resistor5 Start-up time Min 0.012 2.97 -0.5 Typical Maximum 189.000 3.63 5.0 3.3 7 20 30 50 30 0.9*VDD 0.1*VDD 8 8 Units MHz V V mA uA V V mA mA ns 6 4 3 2 45/55 -10/70 or -40/85 20, 25, 32, 50, 100 0.5 1 2.5 % C ppm ps ps V 2.0 0.5 100 10 Kohm ms 1. A 0.01uF and a 0.1uF capacitor should be located as close to the supply as possible (to ground) is recommended. 2. Figure 3 defines these parameters. Figure 4 illustrates the operating conditions under which these parameters are tested and specified. For Fo>90MHz, rise and fall time is measured 20 to 80%. 3. Symmetry is measured defined as Vs, On Time/Period. 4. Includes calibration tolerance, operating temperature, supply voltage variations, aging and shock and vibration (not under operation). 5. Output will be enabled if enable/disable is left open. tR tF I DD V OH 50% VD D V OL + - 4 . 1F .01F 1 2 3 IC On Time VC Period Figure 3. Output Waveform Vectron International 267 Lowell Rd, Hudson NH 03051 + 15pF - Figure 4. Typical Output Test Conditions (255C) Tel: 1-88-VECTRON-1 e-mail: vectron@vectron.com VCC1 Data sheet Table 3. Electrical Performance, 2.5V option Parameter Symbol Frequency fO Operating Supply Voltage 1 VDD Absolute Maximum Voltage Supply Current, Output Enabled IDD 0.012 to 20 MHz 20.01 to 50 MHz 50.00 to 110 MHz 110.1 to 172 MHz Supply Current, Out disabled IDD Output Logic Levels Output Logic High2 VOH Output Logic Low2 VOL Output Logic High Drive IOH Output Logic Low Drive IOL Output Logic High Drive 3 IOH Output Logic Low Drive 3 IOL Output Rise/Fall Time2 tR/tF 0.012 to 20.00 MHz 20.01 to 50.00 MHz 50.01 to 90.00 MHz 90.01 to 172.00 MHz Duty Cycle4 (ordering option) SYM Operating temperature (ordering option) Stability5 (ordering option) RMS Jitter, 12kHz to 20 MHz RMS Jitter Output Enable/Disable6 Output Enabled Output Disabled Internal Enable Pull-Up resistor6 Start-up time Min 0.012 2.25 -0.5 Typical Maximum 172.000 2.75 5.0 2.5 7.0 15.0 20.0 30.0 30 0.9*VDD 0.1*VDD 4 4 8 8 Units MHz V V mA uA V V mA mA mA mA ns 10 6 3 2.0 45/55 -10/70 or -40/85 20, 25, 32, 50, 100 0.5 1 2.5 % C ppm ps ps V 1.75 0.5 100 10 Kohm ms 1. A 0.01uF and a 0.1uF capacitor should be located as close to the supply as possible (to ground) is recommended. 2. Figure 5 defines these parameters. Figure 6 illustrates the operating conditions under which these parameters are tested and specified. 3. Overtone designs, output frequencies>35MHz. 4. Symmetry is measured defined as Vs, On Time/Period. 5. Includes calibration tolerance, operating temperature, supply voltage variations, aging and shock and vibration (not under operation). 6. Output will be enabled if enable/disable is left open. tF tR ID D 4 80 % V DD Vs 20 % + - . 1F . 0 1F 1 VC On Time 2 3 IC + 1 5pF - Period Figure 5. Output Waveform Vectron International 267 Lowell Rd, Hudson NH 03051 Figure 6. Typical Output Test Conditions (255C) Tel: 1-88-VECTRON-1 e-mail: vectron@vectron.com VCC1 Data sheet Table 4. Electrical Performance, 1.8V option Parameter Symbol Frequency fO Operating Supply Voltage 1 VDD Absolute Maximum Voltage Supply Current, Output Enabled IDD 0.048 to 20 MHz 20.01 to 70 MHz 70.01 to 96 MHz 96.01 to 125 MHz 125.01 to 172 MHz Supply Current, Out disabled IDD Output Logic Levels Output Logic High2 VOH Output Logic Low2 VOL Output Logic High Drive IOH Output Logic Low Drive IOL Output Logic High Drive 3 IOH Output Logic Low Drive 3 IOL Output Rise/Fall Time2 tR/tF 0.048 to 20.00 MHz 20.01 to 50.00 MHz 50.00 to 90.00 MHz 90.01 to 172.00 MHz Duty Cycle4 (ordering option) SYM Operating temperature (ordering option) Stability5 (ordering option) RMS Jitter, 12kHz to 20 MHz RMS Jitter Output Enable/Disable6 Output Enabled Output Disabled Internal Enable Pull-Up resistor6 Start-up time Min 0.048 1.71 -0.5 Typical Maximum 172.000 1.89 3.6 1.8 Units MHz V V mA 5 15 20 25 30 30 uA 0.9*VDD V V mA mA mA mA ns 0.1*VDD 2.8 2.8 8 8 4 4 3 2 45/55 -10/70 or -40/85 20, 25, 32, 50, 100 0.5 2.2 % C ppm ps ps V 1.26 0.5 1 10 Mohm ms 1. A 0.01uF and a 0.1uF capacitor should be located as close to the supply as possible (to ground) is recommended. 2. Figure 7 defines these parameters. Figure 8 illustrates the operating conditions under which these parameters are tested and specified. 3. Overtone designs, output frequencies>35MHz. 4. Symmetry is measured defined as Vs, On Time/Period. 5. Includes calibration tolerance, operating temperature, supply voltage variations, aging and shock and vibration (not under operation). 6. Output will be enabled if enable/disable is left open. tF tR ID D 80 % 4 Vs 20 % V DD + - . 1F On Time . 0 1F 1 2 3 IC VC + 1 5pF - Period Figure 7. Output Waveform Vectron International 267 Lowell Rd, Hudson NH 03051 Figure 8. Typical Output Test Conditions (255C) Tel: 1-88-VECTRON-1 e-mail: vectron@vectron.com VCC1 Data sheet Enable/Disable Functional Description Under normal operation the Enable/Disable is left open or set to a logic high state. When the E/D is set to a logic low, the oscillator stops and the output is in a high impedance state. This helps reduce power consumption as well as facilitating board testing and troubleshooting. TriState Functional Description Under normal operation the Tristate is left open or set to a logic high state. When the Tri-State is set to a logic low, the oscillator remains active but the output buffer is in a high impedance state. This helps facilitate board testing and troubleshooting. Outline Diagrams, Pad Layout and Pin Out Pin # Symbol Function 1 2 3 4 E/D or NC GND fO V DD Tristate, Enable/Disable or NC Electrical and Case Ground Output Frequency Supply Voltage Contact Pads are gold over nickel Figure 9, Package drawing Vectron International 267 Lowell Rd, Hudson NH 03051 Tel: 1-88-VECTRON-1 e-mail: vectron@vectron.com VCC1 Data sheet Contact Pads are gold over nickel Figure 10, Alternate Package drawing Tape and Reel Table 5: Tape and Reel Dimensions (mm) J F D G C B A L I E H Tape Dimensions Product A VCC1 12 B C D E 5.5 1.5 4 8 K Reel Dimensions F G H Vectron International 267 Lowell Rd, Hudson NH 03051 1.78 20.6 13 Tel: 1-88-VECTRON-1 I J K L 55 6 12.4 178 e-mail: vectron@vectron.com # Per Reel 1000 VCC1 Data sheet Absolute Maximum Ratings Stresses in excess of the absolute maximum ratings can permanently damage the device. Functional operation is not implied at these or any other conditions in excess of conditions represented in the operational sections of this data sheet. Exposure to absolute maximum ratings for extended periods may adversely affect device reliability. Table 6. Absolute Maximum Ratings Parameter Symbol Storage Temperature Tstorage Ratings -55/125 Unit C Reliability The VCC1 qualification tests have included: Table 7. Environnemental Compliance Parameter Mechanical Shock Mechanical Vibration Temperature Cycle Solderability Gross and Fine Leak Resistance to Solvents Conditions MIL-STD-883 Method 2022 MIL-STD-883 Method 2007 MIL-STD-883 Method 1010 MIL-STD-883 Method 2003 MIL-STD-883 Method 1014 MIL-STD-883 Method 2015 Handling Precautions Although ESD protection circuitry has been designed into the the VCC1, proper precautions should be taken when handling and mounting. VI employs a Human Body Model and a Charged-Device Model (CDM) for ESD susceptibility testing and design protection evaluation. ESD thresholds are dependent on the circuit parameters used to define the model. Although no industry wide standard has been adopted for the CDM, a standard HBM of resistance = 1.5kohms and capacitance = 100pF is widely used and therefore can be used for comparison purposes. Table 8. ESD Ratings Model Human Body Model Charged Device Model Vectron International 267 Lowell Rd, Hudson NH 03051 Minimum 1000 1500 Tel: 1-88-VECTRON-1 Conditions MIL-STD-883 Method 3115 JESD 22-C101 e-mail: vectron@vectron.com VCC1 Data Sheet Suggested IR profile Devices are built using lead free epoxy and can also be subjected to standard lead free IR reflow conditions, Table 9 shows max temperatures and lower temperatures can also be used e.g. peak temperature of 220C. Table 9. Reflow Profile (IPC/JEDEC J-STD-020B) Parameter Symbol PreHeat Time tS Ramp Up R UP o Time Above 217 C Time To Peak Temperature Time At 260 oC (max) Ramp Down tL t AMB-P tP R DN Vectron International 267 Lowell Rd, Hudson NH 03051 Tel: 1-88-VECTRON-1 9 Value 150 sec Min, 200 sec Max 3 oC/sec Max 60 sec Min, 150 sec Max 480 sec Max 10 sec Max 6 oC/sec Max e-mail vectron@vectron.com VCC1 Data Sheet Ordering Information VCC1 - B 3 B - 125M000 Product Family Output Frequency Crystal Oscillator In MHZ Voltage Options Stability Options A: +5.0 Vdc +/-10% , 15pF Electrical Options A: 100ppm, -10 to 70C B: +3.3 Vdc +/-10%, 15pF 3: Tristate, 45/55% Duty C: 100ppm, -40 to 85C C: +3.0 Vdc +/-10%, 15pF The following codes are not B: 50ppm, -10 to 70C E: +5.0 Vdc +/-10%, 50pF recommended for new designs D: 50ppm, -40 to 85C F: +3.3Vdc +/-10%, 50pF 0: No tristate, 40/60% Duty K: 32ppm, -10 to 70C G: +2.5Vdc +/-10%, 15pF 1: Tristate, 40/60% Duty O: 32ppm, -40 to 85C H: +1.8Vdc +/-10%, 15pF 2: No tristate, 45/55%Duty E: 25ppm, -10 to 70C 5: Enable, 40/60% Duty F: 25ppm, -40 to 85C 6: Enable, 45/55% Duty G: 20ppm, -10 to 70C Note: Not all combinations are available. Tristate with a 45/55% is the most common Electrical code and is recommended for most applications. For Additional Information, Please Contact: www.vectron.com January 6, 2005 USA: Vectron International * 267 Lowell Road, Hudson, NH 03051 * Tel: 1-88-VECTRON-1 * Fax: 1-888-FAX-VECTRON EUROPE: VI Telefilter * Potsdamer Strae 18, 14513 Teltow, Germany Tel: 49 (0) 3328 4784 17 * Fax: 49 (0) 3328 4784 30 ASIA: Vectron Asia Pacific Sales Office Unit 3119 31st Floor, Jin Mao Tower, 88 Century Boulevard, Shanghai, P.R. China 200120 Tel: +86 21 28909740 / 41 / 42 * Fax: +86 21 28909240 / 2890999 Vectron International 267 Lowell Rd, Hudson NH 03051 Tel: 1-88-VECTRON-1 10 e-mail vectron@vectron.com