Wide Range Power Monitor Embeds ADCs

Analog Devices, acquired earlier this year by Linear Technology, has announced the LTC2992, a wide range I²C system monitor that monitors the current, voltage and power of two 0 V to 100 V rails without additional circuitry. The LTC2992 has flexible power supply options, deriving power from a 3 V to 100 V  monitored supply, a 2.7 V to 100 V secondary supply, or from the on-board shunt regulator. These supply options eliminate the need for a separate buck regulator, shunt regulator or inefficient resistive divider while monitoring any 0 V to 100 V rail. The LTC2992 is a simple, single-IC solution that uses three delta-sigma ADCs and a multiplier to provide 8- or 12-bit current and voltage measurements and 24-bit power readings.

LTC2992The LTC2992’s wide operating range is ideal for many applications, especially 48V telecom equipment, advanced mezzanine cards (AMC) and blade servers. The onboard shunt regulator provides support for supplies greater than 100V and negative supply monitoring. The LTC2992 measures current and voltage either continuously or on-demand, calculates power and stores all of this information along with minimum and maximum values in I²C accessible registers. Four GPIOs can also be configured as ADC inputs to measure neighboring auxiliary voltages. Measurements are made with only ±0.3% of total unadjusted error (TUE) over the entire temperature range. If any parameter trips the user-programmable thresholds, the LTC2992 flags an alert register and pin per the SMBus alert response protocol. The 400 kHz I²C interface features nine device addresses, a stuck bus reset timer, and a split SDA pin that simplifies I²C opto-isolation.  The LTC2992-1 version offers an inverted data output I²C pin for use with inverting opto-isolator configurations.

The LTC2992 and LTC2992-1 are offered in commercial, industrial and automotive versions, supporting operating temperature ranges from 0°C to 70°C, –40°C to 85°C and –40°C to 125°C, respectively. Both versions are available today in RoHS-compliant, 16-lead 4mm x 3mm DFN and 16-lead MSOP packages. Pricing starts at $3.85 each in 1,000-piece quantities. Please visit www.linear.com/products/power_monitors for more product selection and information.

Summary of Features:

  • Rail-to-Rail Input Range: 0 V to 100 V
  • Wide Input Supply Range: 2.7 V to 100 V
  • Shunt Regulator for Supplies >100 V
  • Three Delta-Sigma ADCs with Less Than ±0.3% TUE
  • 12-Bit Resolution for Currents & Voltages
  • Four GPIOs Configurable as ADC Inputs
  • Shutdown Mode with IQ < 50 µA
  • I²C Interface
  • Split SDA Pin Eases Opto-Isolation
  • Available in 16-Lead 4mm x 3mm DFN & 16-Lead MSOP Packages

Analog Devices | www.analog.com

Linear Technology | www.linear.com

Six-Channel RS-422 Line Driver/Receiver

ic-HausThe iC-HF provides six RS-422 line drivers for 3-to-5.5-V encoder applications. The device contains reverse polarity protection for a safe sensor-side supply of up to 60 mA.

The iC-HF is pin configurable. A safe external signal sequence at two complementary line driver outputs activates the Encoder Link state. In the Encoder Link state, nine pins are connected from the sensor side to the field side. With this low-impedance bypassing, internal analog sensor signals and digital communication signals (e.g., BiSS, SPI, I²C, etc.) can be accessed at the line driver output pins.

With the integrated Encoder Link function, the line drivers can be deactivated and A/D signals can be directly accessed through the line driver output pins. Conventional sensors can be calibrated or programmed through the usual RS-422 outputs via the Encoder Link function. Extra contacts, pins, control lines, or signals are not needed. For differential RS-422 line driver operation, six differential complementary drivers are implemented.

Each push-pull driver stage can drive up to 65 mA maximum at 5 V and operate at up to a 10-MHz output frequency with RS-422 termination. The driver stages are current limited, short-circuit proof, and over-temperature protected. The current limitation also reduces electromagnetic compatibility (EMC).

The device provides under-voltage detection and on-chip temperature monitoring to switch the driver stages to high impedance on demand. A sensor error signal is combined with the iC-HF error states. When a fault occurs, the open-drain error output NERR is activated. All inputs are CMOS- and TTL-compatible and ESD protected.

The iC-HF’s operating temperatures range from –40°C to 125°C. The device is available in a 5-mm × 5-mm 32-pin QFN package. The design-in process is supported by ready-to-operate demonstration boards including the Encoder Link signal sequence generator.

The iC-HF costs $3.65 in 1,000-unit quantities.

iC-Haus GmbH
www.ichaus.com