OctTCTemp Data Logger
8-channel, thermocouple based temperature data logger with mini plug connectors and wall mounted power adapter. Includes NIST traceable calibration certificate.
SPECIFICATIONS:
TEMPERATURE
Internal Channel Temperature Sensor Semiconductor Internal Channel Temperature Resolution ±0.5 °C (0 °C to 50 °C) Internal Channel Temperature Calibrated Accuracy ±0.1 °C (-20 °C to +60 °C) Remote Channel Temperature Sensor Thermocouple Types J, K, T, E, R, S, B ,N Remote Channel Temperature Range Thermocouple Dependent Remote Channel Temperature Resolution Thermocouple Dependent Remote Channel Temperature Calibrated Accuracy Thermocouple Dependent
GENERAL
Memory 16,368 readings per channel (all channels enabled) Reading Rate 4 Hz up to 1 reading every 24 hours Baud Rate 115,200 Cold Junction Compensation Automatic Channels 8 Internal & 8 Remote Battery Life 18 months typical Material Anodized aluminum Dimensions 7.2 in x 2.7 in x 1.3 in (184 mm x 69 mm x 32 mm) Operating Environment -20 °C to +60 °C (-4 °F to +140 °F), 0 %RH to 95 %RH, non-condensing Required Interface Package IFC200 Approvals CE Weight 1.0625 LBS
PRODUCT DESCRIPTION
FEATURES, BENEFITS AND APPLICATIONS
The OctTCTemp is an eight channel thermocouple data logger with a reading rate of up to 4 Hz. It can measure and record data for up to 16,368 (All channels enabled) readings per channel. To maximize memory capacity, users can disable unused channels to add additional memory onto enabled channels. For easy identification, each channel can be named with up to a ten digit title. In addition, the OctTCTemp features individual cold junction compensation for each channel providing increased accuracy and response time, and if a probe is removed or severed during logging, the software automatically annotates the data.
The OctTCTemp is ideal for a variety of applications, whether it is remote temperature monitoring, or multiple points in a central location. The OctTCTemp comes with a wall mounted universal power adapter.
Thermocouple Plugs/Probes Sold Separately.