Touch-Interface ICs integrate haptic controller drivers.
Press Release Summary:
Available in 25 MHz SPI(TM) and 400 kHz I²C versions, MAX11810 and MAX11811 are touch-interface systems with integrated 4-wire touch-screen controllers, haptic controller drivers, and IR-based proximity sensing. Each operates from one 1.7-3.6 V supply and can drive DC motor directly or piezo elements using external piezo driver. Also included, automatic validation of touch responses functionality reduces data transfer and power draw.
Original Press Release:
Industry's First Touch-Interface Solutions with Integrated Haptic Controller Drivers and Proximity Sensing
SUNNYVALE, CA-July 30, 2009-Maxim Integrated Products (NASDAQ: MXIM) introduces the MAX11810* and MAX11811*, the first touch-interface systems with integrated 4-wire touch-screen controllers, haptic controller drivers, and infrared-based proximity sensing. Designed for applications flexibility, these devices can drive a DC motor directly or piezo elements using an external piezo driver. The MAX11800 and MAX11801 are register-map-compatible versions without haptic controller drivers and proximity sensing.
Through simple register programming, the MAX11810/MAX11811 generates greater than 50,000 different haptic patterns with a built-in haptic waveform generator. Programmable registers eliminate the need for a dedicated interface on the application processor or system microcontroller. This programmability simplifies the addition of haptic feedback to any end equipment with a touch screen.
Ideal applications include cell phones, MP3 players, portable media players, digital photo frames, multifunction printers, point-of-sale and financial terminals, bar code-scanners, card readers, and other industrial equipment. Automotive-qualified part versions exist for use in car GPS, entertainment head units, and rear-seat entertainment systems.
Traditional Haptic Feedback System
The current market solution for haptic feedback using motors requires the application processor/system microcontroller to drive the motor. The applications processor/microcontroller needs to generate the haptic waveforms and send them to the motor through a dedicated interface. This adds latency and engages the application processor/microcontroller continuously, not allowing it to perform other duties.
Simplified Haptic Feedback System
The MAX11810/MAX11811 has a built-in waveform generator that creates the various haptic patterns and provides a direct interface to the motors. This approach eliminates the need for a dedicated interface on the application processor/microcontroller. With an integrated H-bridge driver, the MAX11810/MAX11811 eliminates the need for an external amplifier when haptic feedback is implemented using a DC motor. Alternatively, if piezo elements are used to implement haptics, the MAX11810/MAX11811's haptic-feedback output drives an external high-voltage amplification circuit to which the piezo actuators are connected.
Automatic Validation of Touch Responses Reduces Data Transfer and Saves Power
Unlike existing touch-screen controllers, the MAX11810/MAX11811 and MAX11800/MAX11801 reduce system power by offering additional, digital, on-chip processing to validate touch events before they are sent to the application processor. This automatic validation reduces interrupt servicing of false or redundant touch events and lowers total system power. This capability is crucial for battery-powered end equipment.
The MAX11800/MAX11801 and MAX11810/MAX11811 support a built in dynamic aperture feature (position hysteresis) and on-chip FIFO. This automatic function reduces latency in the touch response and unnecessary data transfer between the devices and application processor or microcontroller.
Two other touch-screen controllers are part of this device family, the MAX11802/MAX11803. These devices are register-map-compatible versions of the MAX11800/01 but without the position hysteresis and on-chip FIFO. MAX11802/11803 provides standard resistive, touch-screen controller functionality.
Available in high-speed (25MHz) SPI(TM) and fast (400kHz) I²C versions, all these devices guarantee compatibility with virtually any system or application processor. A wide, 1.7V to 3.6V, single-supply operating range eliminates the need for external supply-voltage regulators and level translators on the data bus. The parts are offered in extended temperature range (-40°C to +85°C). A variant up to +105°C is currently being qualified for use in automotive applications.
The MAX11800-MAX11803 are available in 1.6mm x 2.1mm, 12-pin TQFN and 12-pin WLP packages. The MAX11810/MAX11811 are available in 2.1mm x 2.1mm, 20-pin TQFN and 16-pin WLP packages. These small package footprints facilitate the miniaturization of end equipment. To speed design-in, EV (evaluation) kits are available. To enable full system emulation, the EV kits come with a resistive touch panel. The EV kits for the MAX11810/MAX11811 add a DC motor for evaluating the tactile feedback capability of these devices. The recommended price for the MAX11810 is $1.81 (1000-up, FOB, USA) and $1.76 (1000-up, FOB, USA) for the MAX11811. The recommended prices for the other devices in this controller family are: MAX11800, $1.51 (1000-up, FOB, USA); MAX11801, $1.46 (1000-up, FOB, USA); MAX11802, $1.31 (1000-up, FOB, USA); and MAX11803, $1.26 (1000-up, FOB, USA). All part versions are available now. Please contact the factory for ordering and sampling information. For further information please visit www.maxim-ic.com/Touch-Screen-Controllers (MAX11800-MAX11803) and www.maxim-ic.com/Haptics (MAX11810/MAX11811).
Maxim Integrated Products is a publicly traded company that designs, manufactures, and sells high-performance semiconductor products. The Company reported revenue in excess of $2 billion for fiscal 2008. Maxim was founded over 25 years ago with the mission to deliver innovative analog and mixed-signal engineering solutions that add value to its customers' products. To date, it has developed over 6000 products serving the industrial, communications, consumer, and computing markets. For more information, go to www.maxim-ic.com.
*Future product that is sampling-contact factory for availability.
