Maxim Integrated Products introduces the MAX44000, a digital ambient-light and infrared proximity sensor that detects light like a human eye. This IC integrates three optical sensors, two ADCs, and digital functionality into a 2mm x 2mm x 0.6mm package. The chip consumes 5µA when the ambient sensor is nabled, and 7µA when both the proximity sensor and ambient light sensor are activated. The MAX44000 is ideal for touch-screen applications, including smartphones, portable devices, industrial sensors, and presence detection.

When a smartphone is brought up to a user’s face, the touch screen must be shut off to prevent inadvertent touches that may disrupt the call. Thus a proximity sensor is crucial, so the phone can “sense” an object is within a certain distance during a call or any other preset event. Once a sensed signal is received, it is run through a DC ambient, infrared (IR) rejection front-end circuit and sent to an ADC.

This process allows the device to operate in the presence of large amounts of DC IR radiation. By using a single-pulse technique for pulsing the external IR LED, the sensor is immune to fixed-frequency external IR radiation. This immunity leads to more reliable sensor operation. Traditional light sensors are strongly influenced by ultraviolet (UV) and IR light, which are not perceptible by the human eye. Sensing this light leads to inaccurate ambient-light readings.

Maxim’s BiCMOS technology enables the integration of the two photodiodes and an optical filter to reject UV and IR light. This allows the MAX44000 to replicate the optical response of the human eye in a variety of environments.

The chip is offered in a lead-free 6-pin UTDFN-Opto-EP package. The part operates between -40°C to +105°C to enhance system robustness. Prices start at $1.65 (1000-up, FOB USA).