CV110-1A(2006) 데이터 시트보기 (PDF) - WJ Communications => Triquint
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CV110-1A Datasheet PDF : 4 Pages
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CV110-1A
Cellular-band High Linearity Downconverter
The Communications Edge TM
Product Information
Device Architecture / Application Circuit Information
RF OUT 1
28 27 26 25 24 23 22
21 IF OUT
GND 2 RF Amp
IF Amp 20 GND
N/C 3
GND 4
IF THRU 5
IF Feedthru
Path
19 N/C
18 GND
LO Driver Amp
17 BIAS
GND 6
RF/IF 7 RF/IF
89
16 GND
15 LO IN
LO
10 11 12 13 14
Stage
RF Amplifier
RF Filter
MMIC Mixer
IF Amplifier
CV110-1A
Typical Downconverter Performance Chain Analysis
Gain
(dB)
Output
P1dB
(dBm)
Output
IP3
(dBm)
NF
(dB)
Current
(mA)
Cumulative Performance
Gain
(dB)
Output
P1dB
(dBm)
Output
IP3
(dBm)
NF
(dB)
13.5 21
40.0 3.5
150
13.5 21.0
40.0 3.5
-1.5
---
---
1.5
---
12.0 19.5
38.5 3.5
-9.0
8
23.0 9.8
60
3.0
6.1
22.1 4.5
19.0 22
39.1 2.5
150
22.0 20.3
37.0 5.0
Cumulative Performance
360 22.0 20.3
37.0 5.0
RF Amp Matching
RF Amp Bias
IF Amp Matching IF Amp Bias
RF Bandpass Filter /
Attenuator Pad
LO Amp Bias
Printed Circuit Board Material:
.014” FR-4, 4 layers, .062” total thickness
RF / IF Diplexer
LO Amp Bias
CV110-1A: The application circuit can be broken up into four main
functions as denoted in the colored dotted areas above: RF/IF
diplexing (purple), amplifier matching (green), filtering (red), and dc
biasing (blue). There are various placeholders for chip components in
the circuit schematic so that a common PCB can be used for all WJ
single-branch converters. Additional placeholders for other optional
functions such as filtering are also included.
RF / IF Amplifier Matching: The RF amplifier requires a shunt
matching element for optimal gain and input return loss performance.
The IF amplifier requires matching elements to optimize the
performance of the amplifier to the desired IF center frequency.
Since IF bandwidths are typically on the order of 5 to 10%, a simple
two element matching network, in the form of either a high-pass or
low-pass filter structure, is sufficient to match the MMIC IF
amplifier over these narrow bandwidths. Proper component values
for other IF center frequencies can be provided by emailing to
applications.engineering@wj.com.
RF Bandpass Filtering: Bandpass filtering is recommended to
reject the image frequencies and achieve the best noise figure
performance with the downconverter. The bandpass filter,
implemented with a SAW filter on the application circuit, allows for
the suppression of noise from the image frequency. It is permissible
to not use a filter and use a 2 dB pad with R6, R7, and R16 instead
with slightly degraded noise figure performance. Standard WJ
evaluation boards will have the 2 dB pad in place.
External Diplexer: In a downconversion application, the incoming
RF signal impinges on the switching elements of the mixer; the
interaction with these switches produces a signal at the IF frequency.
The two signals (RF and IF) are directed to the appropriate ports by
the external diplexer. A four-element diplexer is used in the circuit
implementation (L8 and C2 are not used). Pin 5 contains the IF
signal and allows the signal to be transferred to pin 25 for the
convenience of PCB layouts.
DC biasing: DC bias must be provided for the RF, LO and IF
amplifiers in the converter. R1 sets the operating current for the last
stage of the LO amplifier and is chosen to optimize the mixer LO
drive level. Proper RF chokes and bypass capacitors are chosen for
proper amplifier biasing at the intended frequency of operation. The
“+5 V” dc bias should be supplied directly from a voltage regulator.
Specifications and information are subject to change without notice
WJ Communications, Inc • Phone 1-800-WJ1-4401 • FAX: 408-577-6621 • e-mail: sales@wj.com • Web site: www.wj.com
Page 2 of 4 March 2006
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