Vaccine Touchscreen Logger
This product has been replaced by the TSB
The FT645 is part of our line of CDC-recommended continuous data recorders for monitoring vaccine storage. Geared for fast-paced clinical settings this temperature data logger provides 24/7 temperature monitoring of your vaccine supply. It has a touchscreen digital display with full-graphing capabilities which means your complete temperature history is at your fingertips - with scrolling and zoom.
The FT645 is equipped with one thermistor probe immersed in a glycol bottle for stable readings. With high functionality, this unit is designed to work without software. Software is only needed if you want to download the data to a PC.
- Two thermistor probes with attached glycol bottle
- 4.1" x 5.5" (104mm x 140mm) Touchscreen Display with Min/Max option
- Audio/Visual Alarms
- Calibrated and Certified
- Flash Card Data Download ready
To learn more about Replaceable Sensors and their benefits click HERE.
2GB SD Card not included with unit.
DicksonWare Software is needed to communicate with this product and is sold separately.
Dickson Expert Services
Our Dickson Data Division has specially trained representatives to address the needs of customers with large installations or unique demands. Please call 888-452-4626.
- Alarm Type Audio/Visual
- Ambient Operating RH Conditions 0 to 95% RH non-condensing (Logger Only)
- Ambient Operating Temperature Conditions 0 to 122F (-18 to 50C)
- Battery Backup 12 Hrs (Re-chargeable batteries included; Hardwired)
- Cable Details USB - Male Series A plug to 5 pin Male Series B mini plug.
- Calibration Options N100 , N300, N400, & N520
- Channels CH1: Temperature (F/C), CH2: Temperature (F/C); CH1: Temperature, CH2: Temperature
- Data Capacity 32,000 (16,000 per channel)
- Dimensions 1.4 x 8.5 x 6.9in (3.5 x 21.6 x 17.5cm)
- Display Dimensions Height 5
- Display Dimensions Width 6.4
- Display Type Touchscreen
- Display Update Rate Varies with logging interval
- Displays Min/Max Yes
- Download Type USB / Flash Card
- Flash Card Option SD Card (2GB or less)
- IP Rating 21
- Key Features Touchscreen, multiple screen views, on-screen zoom and scroll, software optional, user customizable sample rate, temperature scales and unit of measure
- Minimum Software Version Required 17.2.0
- Mounting Options Mounting Bracket (Included)
- Power Cord 6 ft
- Power Source 120 to 240 VAC, 12 VDC (INTL adapters available)
- Remote Sensor Length 10 ft (single 10 ft extension cable available without sacrificing accuracy)
- Required Software A016, A026, N525 (all optional)
- Response Time 1 Minute to 63% of Full Scale
- Sample Interval User Selectable via Time Scale (See Product Manual for more details)
- Temperature Accuracy +/-0.9F from -58 to 68F (+/-0.5C from -50 to 20C); +/-1.2F from 69 to 122F (+/-0.7C from 21 to 50C)
- Temperature Accuracy (Remainder of Range) +/-1.8F (+/-1C) from 123-158F (51-70C)
- Temperature Range -58 to 158F (-50 to 70C)
- Temperature Sensor Type Field Replaceable with 2 thermistors hard wired to PBC, submersible tips sealed in leak-proof glycol bottles
- Unit Weight 1.15 lbs
- User Calibration with SW400 Yes
- Warranty 12-Month Limited
Why should I calibrate?
All instruments lose accuracy over time due to normal usage and the environmental conditions to which they are exposed.
How often should I calibrate?
For most applications, the recommended calibration interval is every twelve months.
What is NIST Calibration?
NIST stands for the National Institute for Standards and Technology. This organization is responsible for maintaining the master for different measurements, such as the standard "foot", standard, "second", or standard "pound". NIST also maintains the standard for temperature, humidity and pressure.
NIST Traceable means that the measuring standard can be traced directly back to the master standard maintained by the NIST organization.
NIST-Traceable does not tell you the measurement accuracy of a metrologty service in any detail. Only metrology services that can document their ISO 17025 standard provided data on their best measurement uncertainty.