- OPTIMIZED TEMPERATURE CONTROL FOR PERFUSION SYSTEMS
OmniBio Heating Block
NeuroGig’s OmniBio Heating Block provides a streamlined, high-efficiency solution for precisely heating perfusion solutions to experimental temperatures.
Constructed from powder-coated aluminum blocks, it integrates a 48W ceramic heating element (noise-tested with patch-clamp electrophysiology setups) to ensure minimal interference and rapid heat transfer. Five high-grade stainless steel tubes (ss-tubes) are securely clamped to the heating element, maximizing thermal conductivity for fast, reliable heating.
By connecting perfusion tubing to the ss-tubes, users can configure the flow-line to optimize the placement of the heated output near the recording chamber, improving temperature stability in electrophysiology or imaging setups.
Designed for simplicity and modularity, the heating block offers effortless cleaning, easy maintenance, and cost-effective part replacement, making it an ideal choice for demanding research environments.
The simplicity and modularity of the heating block makes cleaning, maintenance and part replacement easy and inexpensive.
Control the built-in heating element of the OmniBio Heating Block with the OmniBio C42 Temperature Controller, or talk to us about controlling the Heating Block with your existing temperature controller
Specifications:
OmniBio Heating block with connection tubes (Before powder-coating)
Flow rate: Max tested flow rate: 15ml/min from room temperature to 38 °C
Max temperature: 90 °C
Resistive heater element resistance: 15 Ohm
Resistive heater element max voltage: 12V
Dimensions of Aluminium block: 50mm (l) x 40mm (w) x 11mm (h) (The block can be positioned on its side or flat, depending on your setup)
Stainless steel tube dimensions: 3mm (outer diameter); 2mm (inside diameter); 75mm (length)
Cable length: 1.8m
Internal volume of stainless steel lead tubes: 1.2ml
Connector type: DIN (custom connectors can be ordered)
Above: OmniBio Inline Solution Heater Block, with connection tubes (user can select input/output position)
Below: Block Dimensions (block can be positioned on its side to reduce footprint if needed)