Maxim > Design Support > Technical Documents > Application Notes > Wireless and RF > APP 602
Keywords: GPS receiver, voltage controlled oscillator, VCO, low noice amplifier, LNA, GLONASS,
downconverter, 1575MHz, GPS, DGPS, receiver, satellite, mixer, front end, ASIC
APPLICATION NOTE 602
RF IC Building Block Solutions for GPS
Jun 01, 2001
Abstract: Maxim's family of high performance CMOS and Silicon Germanium (SiGe) building block RF
ICs for implementing an GPS RF-to-IF receiver are described.
Additional Information:
Wireless Product Line Page
Application Technical Support
Application note 3447, "Complete Stand-Alone GPS Receiver
Solution with MAX2742"
Application note 1985, "LNA Optimized for GPS (REP024)"
Click here for an overview of the wireless
components used in a typical radio
Application note 3248, "MAX2653 LNA with Gain-Step,
transceiver.
Retuned for GPS Applications"
Application note 1749, "MAX2655 GPS LNA Stability
Measurements"
Application note 890, "Silicon Germanium (SiGe) Downconverter Tuned for GPS Receivers"
Application note 957, "The MAX2681 SiGe Downconverter Mixer Tuned for GPS Front Ends"
Application note 2242, "MAX2538 Uses GPS IF LC Filter Optimized for 183.6MHz IF"
Application note 640, "A Single Chip Silicon Bipolar Receivers for GPS/GLONASS Applications"
There are many commercially available IF-to-baseband IC solutions for GPS Applications, and many
companies have opted to design their own proprietary ASICs, but lack an RF-to-IF front end for
downconverting the transmitted GPS frequency to a low-IF frequency. Maxim has produced several RF
ICs that have proved an excellent choice for accomplishing these tasks.
The MAX2741/MAX2742/MAX2745 are a family of high-performance CMOS single-chip GPS front-end
downconverters. These state-of-the-art devices consume extremely lowpower and do not need the
costly IF SAW filters or bulky discrete IF bandpass filters.All devices are fully equipped with a low-noise
amplifier, mixer, BPF, automatic gain control amplifier, local oscillator synthesizer, clock buffer, and digital
sampler. The selector guide for these products are shown in Table 1. For more information on these
products, visit the links below for data sheets and application notes.
Page 1 of 4
Table 1. CMOS GPS RF Front-End Receiver IC Selector Guide
Reference
Clock
(MHz)
IF
Frequency
(MHz)
Conversion
Gain (dB)
Noise
Figure
(dB)
IIP3
(dBm)
MAX2741 2.7 to 3.0 30
2 to 26
37.38 (first)
3.78
(second)
32 (first)
47 (second)
4.7
(first)
12
(second)
-30
(first)
-36
(second)
MAX2742 2.4 to 3.6 14
18.414
1.023
117
4.5
-32
MAX2745 2.4 to 3.6 21
16.368
32.736
4.092
120
3.5
-25
Part
Supply
Voltage
(V)
Supply
Current
(mA)
The MAX2654/MAX2655 SiGe LNAs offer high gain, low noise, and high linearity at 1575MHz. Both RF
ICs incorporate 50Ω output-matching networks for reduced component count. The MAX2654 RF IC
delivers 15.1dB of gain, a noise figure of 1.5dB, and an input third-order intercept point (IIP3) of 7.8dBm. For improved linearity, the MAX2655 RF IC offers 14.1dB of gain, a noise figure of 1.45dB, and
an adjustable IIP3 performance of +2.2dBm to +3.8dBm. The supply current for the MAX2654 is a low
5.8mA, whereas the supply current for the MAX2655 is adjustable from 5.9mA to 10.1mA. Both devices
also feature a 0.1µA low-power shutdown mode. The MAX2641 SiGe LNA is another excellent choice,
offering 15.7dB of gain, an extremely low noise figure of 1.2dB at 1575MHz, and an IIP3 of +1.4dBm.
The supply-current draw is a low 3.5mA. The MAX2641 does not offer a low-power shutdown mode or
an integrated output-matching network.
Maxim currently does not offer a stand-alone GPS LNA that supports gain-step, but retuning the
MAX2563 to the GPS band offers an excellent solution. The MAX2563 is a SiGe LNA designed to
operate in the US PCS and European DCS receive bands. After replacing the matching components, the
MAX2563 delivers 19.2dB of gain, 1.57dB of noise figure, and -5.2dBm of IIP3. For more information,
please see application note 3248, "MAX2653 LNA with Gain-Step, Retuned for GPS Applications."
The MAX2680/MAX2681/MAX2682 are a family of Silicon Germanium downconverting mixers that accept
RF frequencies in the range of 2.5GHz to 400MHz, which makes it outstanding for GPS Applications at
1575MHz. The IF output can be tuned for IF frequencies between 10MHz and 500MHz. See Table 2
below for the performance of the MAX2680, MAX2681, and MAX2682.
Table 2. GPS Silicon Germanium (SiGe) Downconverter IC Selector Guide
Frequency
Part
Supply
Current (mA)
MAX2680 5.0
900MHz
IIP3
(dBm)
-12.9
NF
(dB)
6.3
1950MHz
Gain
(dB)
11.6
IIP3
(dBm)
-8.2
NF
(dB)
8.3
Gain
(dB)
7.6
MAX2681 8.7
-6.1
7.0
14.2
+0.5
11.1
8.4
MAX2682 15.0
-1.8
6.5
14.7
+4.4
10.2
10.4
The following block diagram summarizes the important features of the Maxim's various building-block
GPS RF ICs.
Page 2 of 4
RF ICs for GPS Receivers
Related Parts
MAX2641
300MHz to 2500MHz SiGe Ultra-Low-Noise Amplifiers
Free Samples
MAX2653
GSM900 and DCS1800/PCS1900 Dual-Band, Low-Noise
Amplifiers
MAX2654
1575MHz/1900MHz Variable-IP3 Low-Noise Amplifiers
Free Samples
MAX2655
1575MHz/1900MHz Variable-IP3 Low-Noise Amplifiers
Free Samples
MAX2680
400MHz to 2.5GHz, Low-Noise, SiGe Downconverter
Mixers
MAX2681
400MHz to 2.5GHz, Low-Noise, SiGe Downconverter
Mixers
MAX2682
400MHz to 2.5GHz, Low-Noise, SiGe Downconverter
Mixers
Free Samples
MAX2741
Integrated L1-Band GPS Receiver
Free Samples
MAX2742
Single-Chip Global Positioning System Receiver FrontEnd
MAX2745
Single-Chip Global Positioning System Front-End
Downconverter
Free Samples
Page 3 of 4
More Information
For Technical Support: http://www.maximintegrated.com/support
For Samples: http://www.maximintegrated.com/samples
Other Questions and Comments: http://www.maximintegrated.com/contact
Application Note 602: http://www.maximintegrated.com/an602
APPLICATION NOTE 602, AN602, AN 602, APP602, Appnote602, Appnote 602
Copyright © by Maxim Integrated
Additional Legal Notices: http://www.maximintegrated.com/legal
Page 4 of 4