Bath Water High Performance Precision Stirred Grant GR150
No longer available
Specifications
Manufacturer | Grant |
Model | GR150 |
Condition | Used |
Stock Number | 640-3961 |
Description
The Grant Instruments Optima GR150 series of digitally controlled stirred water baths and circulators provides outstanding performance for routine and sophisticated applications requiring accurate temperature control up to a maximum of 150 deg C.
Grant Instruments GR150 series systems combine the powerful and versatile Grant Instruments Optima GR150 digital immersion thermostat
The Grant Instruments GR150 immersion thermostat incorporates Intelligent Control Optimisation (ICO) for adaptive intelligent PID temperature control and includes a powerful integral pump, making GR150 systems suitable both for immersing samples and circulating temperature controlled fluid to external devices.
The temperature range and heater power are automatically limited according to the liquid type selected.
The GR150 control unit has a host of powerful and convenient programming features for optimum application flexibility.
These include a convenient heater timer for early starts/late shutdowns, a programmable relay for switching external devices on/off, option for remote temperature monitoring, RS232 interface for PC communication and data collection, and memory capacity for one program of up to 30 segments.
Dual display: bright LED for temperature display plus 2-line 16 character LCD for easy programming
Twin heaters, 2kW heater power for fast heat up
Pt1000 external probe socket for remote monitoring
Powerful integral pump, maximum flow 17L/min
Variable high and low temperature alarm settings - configurable to switch a relay
Choice of 5 operator languages
Optional Labwise PC software for program set-up, data logging and real-time graphing
Maximum cooling/heating range (dependent on tank size): ambient +5 to 99 degC with plastic (P) tank, or -15 to 150 degC with stainless steel (S) tank
Stability +/- 0.005 degC
Dimensions:520mm (w) x 190 (d) x 3300 (h)