RFFC2071TR7 RFMD, RFFC2071TR7 Datasheet - Page 7
RFFC2071TR7
Manufacturer Part Number
RFFC2071TR7
Description
IC SYNTH VCO MIXER 2.7GHZ 32-QFN
Manufacturer
RFMD
Datasheet
1.RFFC2071TR7.pdf
(23 pages)
Specifications of RFFC2071TR7
Function
Mixer, Synthesizer, VCO
Frequency
85MHz ~ 2.7GHz
Rf Type
General Purpose
Package / Case
32-VFQFN Exposed Pad
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
689-1080-2
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
RFFC2071TR7
Manufacturer:
RFMD
Quantity:
5 000
External Reference
The RFFC2071 and RFFC2072 have been designed to use an external reference such as a TCXO. The typical input will be a
0.8Vp-p clipped sine wave, which should be AC-coupled into the reference input. When the PLL is not in use, it may be desir-
able to turn off the internal reference circuits, by setting the REFSTBY bit low, to minimize current draw while in standby mode.
On cold start, or if REFSTBY is programmed low, the reference circuits will need a warm-up period. This is set by the SU_WAIT
bits. This will allow the clock to be stable and immediately available when the ENBL bit is asserted high, allowing the PLL to
assume normal operation.
If the current consumption of the reference circuits in standby mode, typically 2mA, is not critical, then the REFSTBY bit can be
set high. This allows the fastest startup and lock time after ENBL is taken high.
Wideband Mixer
The mixers are wideband, double-balanced Gilbert cells. They support RF/IF frequencies from 30MHz up to 2700MHz. Each
mixer has an input port and an output port that can be used for either IF or RF (in other words, for up- or down-conversion). The
mixer current can be programmed to between about 15mA and 45mA depending on linearity requirements. The majority of the
mixer current is sourced through the output pins via either a center-tapped balun or an RF choke in the external matching cir-
cuitry to the supply.
The RF mixer input and output ports are differential and require baluns and simple matching circuits optimized to the specific
application frequencies. A conversion gain of approximately -2dB (not including balun losses) is achieved with 100 differen-
tial input impedance, and the outputs driving 200 differential load impedance. Increasing the mixer output load increases
the conversion gain.
The mixer has a broadband common gate input. The input impedance is dominated by the resistance set by the mixer 1/gm
term, which is inversely proportional to the mixer current setting. The resistance will be approximately 85 at the default mixer
current setting (100). There is also some shunt capacitance at the mixer input, and the inductance of the bond wires (about
0.5nH on each pin) to consider at higher frequencies. The following diagram is a simple model of the mixer input impedance:
The mixer output is high impedance, consisting of approximately 2k resistance in parallel with some capacitance, approxi-
mately 1pF. The mixer output does not require a conjugate matching network. It is a constant current output which will drive a
real differential load of between 50Ω and 500Ω, typically 200Ω. Since the mixer output is a constant current source, a higher
resistance load will give higher output voltage and gain. A shunt inductor can be used to resonate with the mixer output capac-
itance at the frequency of interest. This inductor may not be required at lower frequencies where the impedance of the output
capacitance is less significant. At higher output frequencies the inductance of the bond wires (about 0.5nH on each pin)
becomes more significant. The following diagram is a simple model of the mixer output:
DS110315
7628 Thorndike Road, Greensboro, NC 27409-9421 · For sales or technical
support, contact RFMD at (+1) 336-678-5570 or sales-support@rfmd.com.
Mixer Input
RFFC207x
1K
1K
0.5nH
0.5nH
1pF
0.5nH
0.5nH
0.5pF
RFFC2071/2072
Mixer Output
RFFC207x
Typ 85
Rin
7 of 23
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