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    ROHM Develops the Industry’s Smallest* CMOS Op Amp Optimized for Smartphones and Compact IoT Devices

    Low input offset voltage and noise contribute to higher accuracy in sensor circuits

    ROHM has developed an ultra-compact 1.8V – 5V, rail-to-rail CMOS operational amplifier (op amp) – the TLR377GYZ. It is optimized for amplifying signals from sensors such as temperature, pressure, flow rate, used in smartphones, small IoT devices, and similar applications.

    The size of smartphones and IoT devices continues to decrease – requiring smaller components. To accurately amplify small signals as needed in high precision sensing, op amps must improve low input offset voltage and noise performance while continuing to  shrink the form factor.

    The TLR377GYZ succeeds in balancing miniaturization with high accuracy (which has been difficult to achieve with conventional op amps) by further evolving proprietary circuit design, process, and packaging technologies cultivated over many years.

    Op amps’ input offset voltage and noise generation degrade amplification accuracy and can be suppressed by increasing the size of the built-in transistors – but at the expense of miniaturization. In response, ROHM developed proprietary circuits which achieve a maximum offset voltage as low as 1mV without increasing the size of the transistors. In addition, proprietary process technology greatly reduce flicker noise, while ultra-low noise is achieved with an input equivalent noise voltage density of 12nV/√Hz by optimizing the resistive components at the element level. Furthermore, the new product adopts a WLCSP (Wafer Level Chip Scale Package) with a ball pitch of just 0.3mm utilizing original packaging technology. This reduces size by approximately 69% compared to conventional products and 46% over existing compact products.

    The IC-mounted conversion board that can replace SSOP6 packages is also offered to support replacement considerations and initial evaluation. Both the new product and conversion board are available for purchase through online distributors. In addition, the high accuracy SPICE model – called ROHM Real Model – is  available on ROHM’s website for verification simulations.

    Going forward, in addition to greater miniaturization and accuracy, ROHM will continue to improve op amp performance by reducing power consumption further utilizing proprietary ultra-low current consumption technology.

    Key Product Feature

    A shut down function required by mobile devices is built in, reducing power consumption during standby mode.

    Application Examples

    • Smartphones, compact IoT devices equipped with measurement sensor amps, etc.

    Online Sales Information

    Availability: now

    Pricing: $1.5/unit (samples, excluding tax)

    Online Distributors: DigiKey, Mouser and Farnell

    The products will be offered at other online distributors as they become available.

    • Applicable Part No: TLR377GYZ
    • IC-Mounted Conversion Board: TLR377GYZ-EVK-001 – Online Distributors: DigiKey, Mouser and Farnell

    High Accuracy Simulation Models: ROHM Real Models

    ROHM Real Models are  new high accuracy SPICE models that utilizes original model-based technology to faithfully reproduce the electrical and temperature characteristics of the actual IC, resulting in a perfect match between the IC and simulation values. This ensures reliable verification, contributing to more efficient application development – for example by preventing rework after prototyping. ROHM Real Models are now available on ROHM’s website.

    Terminology

    Input Offset Voltage

    The error voltage that occurs between the input terminals of an op amp.

    Flicker Noise

    Noise inherent to electronic components such as semiconductors. Power is inversely proportional to frequency, so the lower the frequency the greater the power. Also called 1/f noise or pink noise. Other types of noise include thermal (i.e. Johnson-Nyquist, white) noise.

    Equivalent Input Noise Voltage Density

    The value obtained by short-circuiting the input terminals and referring the noise voltage density appearing at the output to the input terminals, i.e., since amplifiers have gain (amplification factor), dividing the output noise voltage density by the gain allows for a fair evaluation of the amplifier’s intrinsic noise characteristics.

    ROHM Real Model

    A high-accuracy simulation model that succeeds in achieving a perfect match between the actual IC and simulation values utilizing ROHM’s proprietary model-based technology.

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