4.5" monochrome, reflective LCD display easily accommodates large signatures and soft buttons
Patented cordless, battery-free pen with 1024 levels of pressure sensitivity to accurately capture the unique pen pressure profile of a signature to be included in the biometric data
State-of-the-art RSA/AES encryption to perform secure transactions
Pen holder/USB cable lock combination provides a convenient area to place the pen, plus USB lock prevents accidental disconnection of USB cable
Unique hardware ID so the exact device used for signing can be identified
Integrated lock slot to secure the unit when needed
Hardened glass protects the LCD and is highly scratch resistant
The STU-430 is a versatile signature pad will all of the features you would expect from a premium product. The thin, attractive design fits in with any signing environment. The monochrome LCD is easily readable in varying light conditions and has enough space for soft buttons in addition to the signature line. State-of-the-art encryption and unique hardware ID ensure secure signing conditions.
Product Dimensions161 x 174 x 11 mm
Communication interfaceUSB
Power Supplyvia USB
Security Lock SlotYes
Warranty1 year
Screen TypeF-STN, positive reflective
Screen Size (Measured Diagonally)4.5" diagonal
Screen Dimensions96 x 60 mm
Native Resolution320 x 200
Reading MethodElectromagnetic resonance (EMR)
Pen pressure levels1024
Sensor Resolution2540 lpi
Coordinate accuracy± 0.5 mm (center)
Battery-free penYes
Cordless penYes
Report Rate200 pps
Development environmentsC++, .Net, and Java SDK/API available for developers
Sign Pro PDF Software
Easy addition of handwritten content to PDF documents including signatures, annotation, and form input
Cryptographic hashing ensures any signature entered the document becomes invalid if the document is altered after signing, assuming the user has activated this setting.
Offline operation means there is no need for logins into online systems
Enhanced fraud protection when PDFs are signed using a Wacom digital pen, which enables the capture and storage of biometric data such as pen pressure and stroke speed, which can help prove the authenticity of a signature, by comparing it to a known and verified example.