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HMMC-3102-TR1 Datasheet(PDF) 3 Page - Agilent(Hewlett-Packard) |
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HMMC-3102-TR1 Datasheet(HTML) 3 Page - Agilent(Hewlett-Packard) |
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3 / 6 page  3 Symbol Parameters/Conditions Min. Typ. Max. Units Pout 3 @ ƒout < 1 GHz 4 6 dBm @ ƒout = 2.5 GHz 3.5 5,5 dBm @ ƒout = 3.5 GHz 0 2.0 dBm |Vout(p–p)|4 @ ƒout < 1 GHz 0.99 volts @ ƒout = 2.5 GHz 0.94 volts @ ƒout = 3.5 GHz 0.63 volts PSpitback ƒout power level appearing at RFin or RFin -40 dBm (@ ƒin 12 GHz, unused RFout or RFout unterminated) ƒout power level appearing at RFin or RFin -47 dBm (@ ƒin = 12 GHz, both RFout & RFout terminated) Pfeedthru Power level of ƒin appearing at RFout or RFout -23 dBc (@ ƒin = 10 GHz, Pin= 0 dBm, referred to Pin (ƒin)) H2 Second harmonic distortion output level (@ ƒout = 3.0 GHz, referred to Pout (ƒout)) -25 dBc Notes 3. Fundamental of output square wave’s Fourier Series. 4. Square wave amplitude calculated from Pout. RF Specifications (Continued) (TA = 25°C, Z0 = 50 Ω, VCC – VEE = 5.0 volts) Applications The HMMC-3102 is designed for use in high frequency communications, micro- wave instrumentation, and EW radar systems where low phase-noise PLL control circuitry or broad-band frequency translation is required. Operation The device is designed to operate when driven with either a single-ended or differential sinusoidal input signal over a 200 MHz to 16 GHz bandwidth. Below 200 MHz the prescaler input is “slew-rate” limited, requiring fast rising and falling edge speeds to properly divide. The device will operate at frequencies down to dc when driven with a square-wave. Due to the presence of an off-chip RF-bypass capacitor inside the package (connected to the VCC contact on the device), and the unique design of the device itself, the component may be biased from either a single positive or single negative supply bias. The back- side of the package is not dc connected to any dc bias point on the device. For positive supply operation, VCC pins are nominally biased at any voltage in the +4.5 to +6.5 volt range with pin 8 (VEE) grounded. For negative bias op- eration VCC pins are typically grounded and a negative voltage between -4.5 to -6.5 volts is applied to pin 8 (VEE). ac-Coupling and dc-Blocking All RF ports are dc connected on-chip to the VCC contact through on-chip 50 Ω resistors. Under any bias condi- tions where VCC is not dc grounded the RF ports should be ac coupled via series capacitors mounted on the PC- board at each RF port. Only under bias conditions where VCC is dc grounded (as is typical for negative bias supply operation) may the RF ports be direct coupled to adjacent circuitry or in some cases, such as level shifting to subsequent stages. In the latter case the package heat sink may be “floated” and bias applied as the dif- ference between VCC and VEE. |
Similar Part No. - HMMC-3102-TR1 |
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Similar Description - HMMC-3102-TR1 |
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