Scientifica Temperature Controller

Simultaneously image and photostimulate hundreds of individual cells in 3D, with precise targeting of cells across large areas of the brain. Introducing the HoloStim-3D.

Scientifica Temperature Controller

An in-line Peltier heater to provide stable temperature control of physiological solutions.

Scientifica Temperature Controller

Simple control of perfusion solutions

0.1 °C control

Up to 37 °C (at a flow rate of 6ml/m)

LinLab integration

In-line peltier heating

In-line Peltier heater

The Scientifica Temperature Controller uses an in-line Peltier heater and allows the heating of perfusion solutions to physiological temperatures (up to a maximum of 37 degrees Celsius when used at a flow rate of 6ml/m) Temperatures can be controlled within 0.1 degrees.

LinLab Software

The Temperature Controller uses the Scientifica LinLab software for operation and allows adjustment of temperature settings such as gain and maximum temperature. Actual bath temperature, as well as heater temperature, can be view against the target temperature through a live graph, shown in the LinLab software and this can be export for reference against sample recordings.

Line voltage
Line voltage
85-264 VAC
Input frequency
Input frequency
47-440 Hz
Temperature sensor
Temperature sensor
Pt 100
Operating temperature
Operating temperature
10-40 °C
Storage temperature
Storage temperature
0-50 °C
Control range ambient temperature
Control range ambient temperature
Min. 10 °C to 50 °C
Resolution
Resolution
0.1 °C
Dimensions (W x D x H)
Dimensions (W x D x H)
170x224x66 mm
Weight
Weight
1.5 kg
Output channels
Output channels
1 (TC01) 2 (TC02)
Output max
Output max
10 W per channel
Output current max
Output current max
1 A per channel
Output voltage max
Output voltage max
15 V
Heating resistance
Heating resistance
0-30 Ohm, typically 20 Ohm
Fuse
Fuse
800 mA slow blow
Patch-Seq Protocol to Analyze the Electrophysiology, Morphology and Transcriptome of Whole Single Neurons Derived From Human Pluripotent Stem Cells

Frontiers in Molecular Neuroscience

View paper

Glycolytic Inhibition by 2-Deoxy-D-Glucose Abolishes both Neuronal and Network Bursts in an In Vitro Seizure Model

The Journal of Neurophysiology

View paper

Download the Temperature Controller brochure for more information.

Scientifica Temperature Control

pdf

Download

Contact Form