Mouser Left Banner
Mouser Left Banner
Mouser Left Banner
Mouser Right Banner
Mouser Right Banner
Mouser Right Banner
More

    6-Channel Logic/SPI/I²C µModule Isolator Delivers More Than 100mA Via Two Adjustable Power Rails

    Linear Technology Corporation introduces the LTM2887, a 6-channel SPI/Digital or I²C μModule® isolator with dual rail regulated power that targets low voltage components, including newer DSPs and microprocessors. Two well-regulated adjustable supply rails (up to 5V) deliver more than 100mA of load current over the isolation barrier, with up to 62% efficiency. The voltages may be adjusted as low as 0.6V for the auxiliary supply, while the isolated logic supply may be as low as 1.8V for SPI interfaces. Each supply provides a precise current limit adjustment pin and the ability to adjust the voltage using external resistors.

    In industrial system applications, ground potentials can vary widely, often exceeding the tolerable range, interrupting communications or even destroying components. The LTM2887 breaks ground loops by electrically isolating the logic level interface on each side of an internal isolation barrier. This inductively coupled barrier withstands very large ground differential voltages up to 2,500VRMS.

    A low EMI isolated DC/DC converter powers the LTM2887 and provides the isolated power to the communications interface and output rails. A separate logic supply pin provides direct interfacing with low voltage microcontrollers down to 1.62V, and an ON pin enables the LTM2887 to be shutdown and use less than 10μA. The LTM2887 provides uninterrupted communications for common mode transients greater than 30kV/μs and rugged ±10kV ESD (HBM) protection across the isolation barrier.

    unnamedThe LTM2887 is available in two communications interface versions. The LTM2887-I is I²C compliant at up to 400kHz with bidirectional serial data (SDA) plus clock (SCL) and three additional isolated CMOS logic signals that operate at up to 10MHz. The LTM2887-S is SPI-compliant and offers a total of six CMOS digital isolator communication channels. All channels operate at up to 10MHz and include three forward direction signals (CS, SCK and SDI) and three reverse direction signals (SDO, DO1 and DO2). When configured for SPI communications, the maximum clock rate is 8MHz for unidirectional communication or 4MHz for round-trip bidirectional operation.

    The LTM2887 is available in 3.3V or 5V supply voltage versions and is offered in a 15mm x 11.25mm surface mount BGA package; all integrated circuits and passive components are housed in this RoHS-compliant μModule package. The LTM2887 is available 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 105°C respectively. Pricing starts at $12.25 each in 1,000 piece quantities. Please visit www.linear.com/isolators for more information.

    Summary of Features: LTM2887

    • 6 Channel Logic Isolator: 2500VRMS
    • Isolated DC Power:
      ○ 1.8V to 5V Isolated Logic Supply at Up to 100mA
      ○ 0.6V to 5V Auxiliary Supply at Up to 100mA
    • No External Components Required
    • High Common Mode Transient Immunity: 30kV/μs
    • High Speed Operation:
      ○ 10MHz Digital Isolation (LTM2887-S)
      ○ 8MHz/4MHz SPI Isolation (LTM2887-S)
      ○ 400kHz I²C compliant Isolation (LTM2887-I)
    • 3.3V (LTM2887-3) or 5V (LTM2887-5) Operation
    • 1.62V to 5.5V Logic Supply for Flexible Digital Interfacing
    • ±10kV ESD HBM Across the Isolation Barrier
    • 15mm x 11.25mm x 3.42mm BGA Package
    ELE Times Bureau
    ELE Times Bureauhttps://www.eletimes.com
    ELE Times provides a comprehensive global coverage of Electronics, Technology and the Market. In addition to providing in depth articles, ELE Times attracts the industry’s largest, qualified and highly engaged audiences, who appreciate our timely, relevant content and popular formats. ELE Times helps you build awareness, drive traffic, communicate your offerings to right audience, generate leads and sell your products better.

    Technology Articles

    Popular Posts

    Latest News

    Must Read

    ELE Times Top 10