The AZ10/100LVEL16 is a differential receiver. The device is functionally equivalent to the E116 device with higher performance capabilities. With output transition times significantly faster than the E116, the LVEL16 is ideally suited for interfacing with high frequency sources.
The LVEL16 provides a VBB output for single-ended use or a DC bias reference for AC coupling to the device. For single-ended input applications, the VBB reference should be connected to one side of the D/D¯ differential input pair. The input signal is then fed to the other D/D¯ input. The VBB pin can support 1.5 mA sink/source current. When used, the VBB pin should be bypassed to ground via a 0.01 μF capacitor.
Under open input conditions internal input clamps will force the Q output LOW.

*Green and RoHS Compliant / Lead (Pb) Free Packages available
*250ps Propagation Delay
*High Bandwidth Output Transitions
*Operating Range of 3.0V to 5.5V
*Internal Input Pulldown Resistors
*Direct Replacement For ON Semiconductor MC10EL16, MC100EL16, & MC100LVEL16
*IBIS Model Files Available on Arizona Microtek Website


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General Description
The SX1213 is a low cost single-chip receiver operating in the frequency ranges from 300MHz to 510MHz. The SX1213 is optimized for very low power consumption (3mA). It incorporates a baseband demodulator with data rates up to 200 kb/s. Data handling features include a sixty-four byte FIFO, packet handling, CRC and data whitening processing. Its highly integrated architecture allows for minimum external component count whilst maintaining design flexibility. All major RF communication parameters are programmable and most of them may be dynamically set. It complies with European (ETSI EN 300-220 V2.1.1) and North American (FCC part 15.247 and 15.249) regulatory standards.

*Low Rx power consumption: 3mA
*Good reception sensitivity: down to -104 dBm at 25 kb/s in FSK, -110 dBm at 2kb/s in OOK
*Packet handling feature with data whitening and CRC processing
*RSSI (Received Signal Strength Indicator) range from Rx noise floor to 0 dBm
*Bit rates up to 200 kb/s, NRZ coding
*On-chip frequency synthesizer
*FSK and OOK modulation
*Incoming sync word recognition
*Built-in Bit-Synchronizer for incoming data and clock synchronization and recovery
*5 x 5 mm TQFN package
*Optimized Circuit Configuration for Low-cost applications
*Pin to pin compatible with SX1212 Transceiver

*Wireless alarm and security systems
*Wireless sensor networks
*Automated Meter Reading
*Home and building automation
*Industrial monitoring and control
*Remote Wireless Control


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The XE1610-OEMPVT GPS Receiver from RF Solutions is a GPS receiver product which features the revolutionary FirstGPS™ architecture. This complete GPS receiver solution provides high accuracy position and speed performance as well as high sensitivity and tracking capabilities in urban areas. The GPS Receiver comes in a small form factor package. The XE1610-OEMPVT delivers major advancements in GPS performance, accuracy, integration, computing power and flexibility. It is designed to simplify the embedded system integration process.
The FirstGPS is a mixed hardware/software architecture based on the XE16BB10 advanced channel correlator IC and its companion RF downconverter.

*High sensitivity: to -143 dBm tracking, superior urban performance.
*Position accuracy: < 5m CEP (50%) without SA (horizontal)
*Warm Start is under 40 seconds (50%)
*Hot Start is under 12 seconds (50%)
*Ultra low power: < 20 mA @ 3.3V full power, 3 additional low power modes
*Embedded ARM7TDMI
*Small form factor and low cost solution
*Ready-to-plug solution, fully autonomous PVT solution. Easily integrated into existing systems
*On-board RAM for GPS navigation data, on-board Flash memory back-up
*PPS output
*Bidirectional NMEA interface
*Real Time Clock with separate back-up power supply

*Asset management/tracking
*Palmtop, Laptop, PDA
*Location Based Services enabled devices
*Handheld receivers

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The LTM®9003 is a 12-bit digital pre-distortion receiver subsystem for the transmit path of cellular basestations. Utilizing an integrated system in a package (SiP) tech-nology, it includes a downconverting mixer, wideband fi lter and analog-to-digital converter (ADC). The system is tuned for an intermediate frequency (IF) of 184MHz and a signal bandwidth of up to 125MHz. The 12-bit ADC samples at rates up to 250Msps. Contact Linear Technology regarding customization.
The high signal level downconverting active mixer is optimized for high linearity, wide dynamic range IF sampling applications. It includes a differential LO buffer amplifi er driving a double-balanced mixer. Broadband, integrated transformers on the RF and LO inputs provide single ended 50Ω interfaces. The RF and LO inputs are internally matched to 50Ω from 1.1GHz to 1.8GHz.
The CLK input controls converter operation and may be driven differentially or single-ended. An optional clock duty cycle stabilizer allows high performance at full speed for a wide range of clock duty cycles.

*Fully Integrated Receiver Subsystem for Digital Pre-Distortion Applications
*Down-Converting Mixer with Wide RF Frequency Range: 400MHz to 3.8GHz
*125MHz Wide Bandpass Filter, <0.5dB Passband Ripple
*Low Power ADC with Up to 12-Bit Resolution, 250Msps Sample Rate
*–145.5dBm/Hz Input Noise Floor, 25.8dBm IIP3
*1.5W Total Power Consumption
*50Ω Single-Ended RF and LO Ports
*Internal Bypass Capacitance, No External Components
*ADC Clock Duty Cycle Stabilizer
*11.25mm × 15mm LGA package

*Transmit Observation Path Receivers
*Digital Pre-Distortion (DPD) Receivers
*Wideband Receiver
*Wideband Instrumentation


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General Description
Mimix Broadband’s 17.0-25.0 GHz GaAs packaged receiver has a noise figure of 2.5 dB and 20.0 dB image rejection across the band. This device is a two stage balanced LNA followed by an image reject sub-harmonic anti-parallel diode mixer and includes an integrated LO buffer amplifer. The image reject mixer eliminates the need for a bandpass filter after the LNA to remove thermal noise at the image frequency. The use of a sub-harmonic mixer makes the provision of the LO easier than for fundamental mixers at these frequencies. I and Q mixer outputs are provided and an external 90 degree hybrid is required to select the desired sideband. This device uses Mimix Broadband’s 0.15 μm GaAs PHEMT device model technology, and is based upon electron beam lithography to ensure high repeatability and uniformity. The device comes in a 7x7 mm QFN Surface Mount Laminate Package offering excellent RF and thermal properties and is RoHS compliant. This device is well suited for Millimeter-wave Point-to-Point Radio, LMDS, SATCOM and VSAT applications.

*Sub-harmonic Receiver
*Integrated LNA, LO Buffer, Image Reject Mixer
*7x7 mm, QFN
*+2.0 dBm LO Drive Level
*2.5 dB Noise Figure
*20.0 dB Image Rejection
*100% On-Wafer RF, DC and Noise Figure Testing

XR1006-QD-0N00, XR1006-QD-0N0T, XR1006-QD-EV1
TAG GaAs, QFN, Receiver

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General Description
The a6402 MegaCore function implements a universal asynchronous receiver/transmitter (UART), which provides an interface between a microprocessor and a serial communications channel.

*a6402 MegaCore function implementing a universal asynchronous receiver/transmitter (UART)
*Optimized for FLEX® and MAX® architectures
*Uses approximately 162 FLEX logic elements (LEs)
*Programmable word length, stop bits, and parity
*Full duplex operation
*Includes status flags for parity, framing, and overrun errors
*Functionally based on the Harris HD-6402 device, except as noted in the “Variations & Clarifications” section on page 63

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The QFMT6 AND QFMR6 miniature UHF radio modules enable the implementation of a reliable telemetry link at data rates of up to 64 Kbits/s.
The QFMT6 is based on a classical phase lock loop using a crystal reference oscillator. This results in an accurately controlled RF output in the frequency domain. A significant advantage of this is that narrow filtering can then be used in the receiver, which results in high interference immunity.
In addition, the modules are fitted with an on-board voltage regulator which enhances performance from improved supply filtering and also ensures a constant RF output level.
The QFMR6 is based on the single conversion superhet principle utilising a crystal based phase lock loop for accurate generation of the local oscillator. This allows use of high Q bandpass filters resulting in good adjacent channel selectivity and high interference immunity.
The QFMT6 and QFMR6 modules will suit one-to-one and multi-node wireless links in applications including building and car security, remote industrial process monitoring and computer networking. Because of its small size and low power requirements, these modules are ideal for use in portable battery powered wireless applications. These modules may be used within areas of high interference, or ‘radio traffic’. Due to the design, they provide a highly reliable radio link.

*Miniature SIL Package
*Fully Shielded
*Data Rates Up To 64kbits/S
*Range upto 200 Metres
*Single Supply Voltage
*Industry Pin Compatible

*Vehicle Alarm Systems
*Remote Gate Controls
*Garage Door Openers
*Domestic And Commercial Security

T6-8684-64, T6-86985, T6-915-20, T6-915-64

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General Description
The MLX71122 is a multi-channel RF receiver IC based on a double-conversion super-heterodyne architecture. It is designed to receive FSK and ASK modulated RF signals either in 8 predefined frequency channels or frequency programmable via a 3-wire serial programming interface (SPI).
The IC is designed for a variety of applications, for example in the European bands at 433MHz and 868MHz or for the use in North America or Asia, e.g. at 315MHz, 447MHz or 915MHz.

*Programmable PLL synthesizer
*8-channel preconfigured or fully programmable SPI mode
*Double super-heterodyne receiver architecture with 2nd mixer as image rejection mixer
*Reception of FSK, FM and ASK modulated signals
*Low shut-down and operating currents
*AFC - automatic frequency correction
*AGC - automatic gain control
*On-chip IF filter
*Fully integrated FSK/FM demodulator
*RSSI for level indication and ASK detection
*2nd order low-pass data filter
*Positive and negative peak detectors
*Data slicer (with averaging or peak-detector adaptive threshold)
*32-pin Quad Flat No-Lead Package (QFN)

Application Examples
*General digital and analog RF receivers at 300 to 930MHz
*Tire pressure monitoring systems (TPMS)
*Remote keyless entry (RKE)
*Low power telemetry systems
*Alarm and security systems
*Active RFID tags
*Remote controls
*Garage door openers
*Home and building automation

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The AZ10/100EP16VS is a Silicon–Germanium (SiGe) differential receiver with variable output swing. The EP16VS has functionality and output transition times similar to the EP16, with an input that controls the amplitude of the Q/Q¯ outputs.
Connecting the BOOST pin to VEE increases the output swing by about 15% above standard ECL/PECL levels. The BOOST pin is internally tied to VEE for the SOIC 8 and TSSOP 8 packages, and is under external user control for the MLP 16 package. When both the BOOST pin and the VCTRL pin are not connected, the part operates with the standard ECL/PECL output and VBB levels of the AZ10/100EP16 device. To ensure best performance, the BOOST
pin should be tied to VEE when the variable swing feature is used.
The operational range of the EP16VS control input, VCTRL, is from VREF (full swing) to VCC (min. swing). Maximum swing is achieved by leaving the VCTRL pin open or tied to VEE. Simple control of the output swing can be obtained by a variable resistor between the VREF and VCC pins, with the wiper driving VCTRL. Typical application circuits and results are described in this Data Sheet.
The EP16VS provides a VREF (VBB/VREF) output for a DC bias when AC coupling to the device. The VREF pin should be used only as a bias for the EP16VS as its current sink/source capability is limited. Whenever used, the VREF pin should be bypassed to ground via a 0.01μF capacitor.
Under open input conditions for D/D¯, the Q/Q¯ outputs are not guaranteed.

*Silicon-Germanium for High Speed Operation
*150ps Typical Propagation Delay
*AZ100EP16VS Functionally Equivalent to ON Semiconductor MC100EP16VS at 3.3V
*Available in a 3x3mm MLP Package
*S-Parameter (.s2p) and IBIS Model Files available on Arizona Microtek Website


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The IC U2532B is a complete IR-Transmitter-Receiver IC according to the new IrDA 1.0 standard. ASK-modulation is also possible. Only an external PIN-photodiode and an infrared emitting diode with current limiting resistor must be connected to the corresponding pins. The amplifier with Schmitt-Trigger formed output signal and the IR-driver need no further external components. The IC allows data rates from 2.4 kbit/s to 115.2 kbit/s and up to 500 kHz for
ASK-modulation. Two different sensitivity modes, which can be programmed by applying a “High” or “Low” voltage at pin SC, ensure either an increase in transmission distance or a bit error rate of 1E-9. An internal AGC allows proper operation under EMI conditions.

*Data rates up to 115.2 kbit/s
*Wide supply voltage range (3 to 5.5 V)
*AGC for EMI immunity
*AGC reset
*High and low sensitivity mode
*BER < 1E-9 in the low sensitivity mode
*Power-On reset

*IR data transmission
*Compatible to IrDA
*Bidirectional IR data transmission
*Ability to receive ASK modulation

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