MAX2140
LAST TIME BUYComplete SDARS Receiver
Part Details
- Integrated Receiver, Requires Only One SAW Filter
- Self-Contained RF AGC Loop
- Differential I/Q Interface
- Complete Integrated Frequency Generation
- Bias Supply for External LNAs
- Overcurrent Protection
- Low-Power Standby Mode
- Very Small 44-Pin Thin QFN Package
The MAX2140 complete receiver is designed for satellite digital audio radio services (SDARS). The device includes a fully monolithic VCO and only needs a SAW at the IF and a crystal to generate the reference frequency.
To form a complete SDARS radio, the MAX2140 requires only a low-noise amplifier (LNA), which can be controlled by a baseband controller. The small number of external components needed makes the MAX2140-based platform the lowest cost and the smallest solution for SDARS.
The receiver includes a self-contained RF AGC loop and baseband-controlled IF AGC loop, effectively providing a total dynamic range of over 92dB.
Channel selectivity is ensured by the SAW filter and by on-chip monolithic lowpass filters.
The fractional-N PLL allows a very small frequency step, making possible the implementation of an AFC loop. Additionally, the reference is provided by an external XTAL and on-chip oscillator. A reference buffer output is also provided.
A 2-wire interface (I²C bus compatible) programs the circuit for a wide variety of conditions, providing features such as:
- Programmable gains
- Lowpass filters tuning
- Individual functional block shutdown
Applications
- 2.4GHz ISM Radios
- Satellite Digital Audio Radio Services (SDARS)
Documentation
Data Sheet 1
Reliability Data 1
Design Note 1
Technical Articles 2
This is the most up-to-date revision of the Data Sheet.
Evaluation Kits
Evaluation Kit for the MAX2140
Latest Discussions
No discussions on max2140 yet. Have something to say?
Start a Discussion on EngineerZone®