ADL5513 1 MHz TO 4 GHz, 80 dB Logarithmic Detector / Controller

The ADL5513 is a demodulating logarithmic amplifier, capable of accurately converting an RF input signal to a corresponding decibel-scaled output. It employs the progressive compression technique over a cascaded amplifier chain, each stage of which is equipped with a detector cell. The device can be used in either measurement or controller modes. The ADL5513 maintains accurate log conformance for signals up to 4 GHz. The input dynamic range is typically 80 dB (referred to 50 Ω) with error less than ±3 dB and 74 dB with error less than ±1 dB. That dynamic range is held nearly constant over the entire 4 GHz frequency range. The ADL5513 has a 20 ns response time that enables RF burst detection to a pulse rate of beyond 50 MHz. The device provides unprecedented logarithmic intercept stability vs. ambient temperature conditions. A supply voltage of 2.7 V to 5.5 V is required to power the device. Current consumption is 31 mA, and it decreases to 200 μA when the device is disabled.  The ADL5513 can be configured to provide a control voltage to a power amplifier or a measurement output from the VOUT pin. Because the output can be used for controller applications, special attention has been paid to minimize wideband noise. In this mode, the setpoint control voltage is applied to the VSET pin. The feedback loop through an RF amplifier is closed via VOUT, the output of which regulates the amplifier output to a magnitude corresponding to VSET. The ADL5513 provides 0 V to (VPOS − 0.1 V) output capability at the VOUT pin, suitable for controller applications. As a measurement device, VOUT is externally connected to VSET to produce an output voltage, VOUT, that increases linear-in-dB with RF input signal amplitude. The logarithmic slope is 21 mV/dB, determined by the VSET interface. The intercept is -88 dBm (referred to 50 Ω, continuous wave input, 900 MHz) using the INHI input. These parameters are very stable against supply and temperature variations. The ADL5513 is fabricated on a SiGe bipolar IC process and is available in a 3 mm × 3 mm, 16-lead LFCSP package for the −40°C to +125°C operating temperature range. A fully populated evaluation board is available. Applications RF transmitter power amplifier linearization and gain/power control Power monitoring in radio link transmitters RSSI measurement in base stations, WLAN, WiMAX, RADAR

The ADL5513 can be configured to provide a control voltage to a power amplifier or a measurement output from the VOUT pin. Because the output can be used for controller applications, special attention has been paid to minimize wideband noise. In this mode, the setpoint control voltage is applied to the VSET pin. The feedback loop through an RF amplifier is closed via VOUT, the output of which regulates the amplifier output to a magnitude corresponding to VSET. The ADL5513 provides 0 V to (VPOS − 0.1 V) output capability at the VOUT pin, suitable for controller applications. As a measurement device, VOUT is externally connected to VSET to produce an output voltage, VOUT, that increases linear-in-dB with RF input signal amplitude.

The logarithmic slope is 21 mV/dB, determined by the VSET interface. The intercept is -88 dBm (referred to 50 Ω, continuous wave input, 900 MHz) using the INHI input. These parameters are very stable against supply and temperature variations.

The ADL5513 is fabricated on a SiGe bipolar IC process and is available in a 3 mm × 3 mm, 16-lead LFCSP package for the −40°C to +125°C operating temperature range. A fully populated evaluation board is available.

Applications

Features and Benefits
  • Wide bandwidth: 1 MHz to 4 GHz
  • 80 dB dynamic range (±3 dB)
  • Constant dynamic range over frequency
  • Stability over −40°C to +85°C temperature range: ±0.5 dB
  • Operating temperature range: −40°C to +125°C
  • Sensitivity: −70 dBm
  • Low noise measurement/controller output (VOUT)
  • Pulse response time: 21 ns/20 ns (fall/rise)
  • Single supply operation: 2.7 V to 5.5 V @ 31 mA
  • Power-down feature: 1 mW @ 5 V
  • Small footprint LFCSP
  • Fabricated using high speed SiGe process
  • RF & Microwave
    Instrumentation and Measurement
    • Electronic Test & Measurement
    Data Sheets
    Documentnote
    ADL5513: 1 MHz to 4 GHz, 80 dB Logarithmic Detector/Controller Data Sheet (Rev. 0)PDF 1565 kB
    Application Notes
    Documentnote
    AN-1040: RF Power Calibration Improves Performance of Wireless Transmitters (Rev. 0)PDF 152 kB
    Frequently Asked Questions
    Documentnote
    Order Information
    Part NumberPackagePacking QtyTemp RangePrice 100-499Price 1000+RoHS
    ADL5513ACPZ-R2 Production16 ld LFCSP (3x3mm, 1.50mm exposed pad)REEL 250-40 to 125C6.576.57Y
    ADL5513ACPZ-R7 Production16 ld LFCSP (3x3mm, 1.50mm exposed pad)REEL 1500-40 to 125C05.56Y
    ADL5513ACPZ-WP Production16 ld LFCSP (3x3mm, 1.50mm exposed pad)REEL 50-40 to 125C6.575.56Y
    Evaluation Boards
    Part NumberDescriptionPriceRoHS
    ADL5513-EVALZEvaluation Board150Y
    Reference Materials
    ADL5513: 1 MHz to 4 GHz, 80 dB Logarithmic Detector/Controller Data Sheet (Rev 0, 11/2008) ADL5513
    ADL5513: 1 MHz to 4 GHz, 80 dB Logarithmic Detector/Controller Data Sheet (Rev. 0) adl5513
    AN-1040: RF Power Calibration Improves Performance of Wireless Transmitters (Rev. 0) ad8307
    AN-1040: RF功率校准提高无线发射机的性能 (Rev. 0) ad8307
    RF Source Booklet adf9010
    CN-0072: Extending the Dynamic Range of the ADL5513 Logarithmic Detector... adl5513
    Measurement and Control of RF Power, Part I ad640
    Measurement and Control of RF Power, Part II ad640
    Measurement and Control of RF Power, Part III ad640
    Log Amps and Directional Couplers Enable VSWR Detection ad640
    Measuring VSWR and Gain in Wireless Systems ad640
    Measuring the RF Power in CDMA2000 and W-CDMA High Power Amplifiers (HPAs) ad640
    Detecting Fast RF Bursts using Log Amps ad640
    Make Precise Base-Station Power Measurements ad640
    Design a Logamp RF Pulse Detector ad640