Ultrasonic sensor with indication

The ultrasonic sensor is designed for mounting on the ceiling or a cable channel and detecting the availability of a parking space. It is recommended for covered parking lots. All ParkSol sensors have the digital signal processing (DSP), adaptive sensitivity and temperature compensation functions. The sensor transmits the parking space availability information in real-time to the ParkSol system. The system represents the number of free parking spaces on LED screens.

Category: .

Made in the European Union.
127 detectors in a loop.
Weather proof – IP66 protection class. Instantly works in -40/+70 ºC temperature.
Ambient temperature measurement function, temperature maps.
Detector mounting till the height of 4.5 m.
Flash Wave energy saving function. Indicators are flashing according to the wave principle, therefore, the system energy consumption is reduced by up to 10-fold.
High brightness LEDs with reflector optics and +/-45 degree beam angle adjustment.
Remote display function (optional).
Sensors are designed to be installed on a standard MQ-type galvanized installation channel.
Quick and easy sensor connection to the base via the NailPin connector.
Audible warning function (optional).
Standalone demo sensor for system presentations.
Digital Signal Processing (DSP) and Adaptive Temperature Compensation (ATC).
Joint commands for sensor groups.
Sensor software update over the network.

Electrical characteristics

Supply voltage 12-24 VDC
Current 0.1-0.2 A
Power consumption 2 W

Sensor type

Detection method Ultrasonic
Detection distance 0.7- 4 m

Interfaces

Type RS485
RS-485 ports 1
RS-485 isolation no
 Cable Type Shielded, twisted pair EIA RS485

Indication

Light colour, angle adjustment Integrated red/green LED till 45 degrees

Environment

Work temperature -40°C ….+70°C
Humidity 20 ….95%

Other

Housing type IP66
Mounting method Screws
Dimension (mm) 136 x 123 x 200
Weight 350 g
Colour Grey/ transparent

Dimensions:

Dimension

Schematics:

Schema

Tech_pass_Ultrasonic Sensor_w_ind_EN 2015