Data Sheet
6
- Function Details -
Support for connection to PCs via Ethernet
The 8826 can be connected to Ethernet, a standard
network protocol in the Internet age (using the optional
LAN CARD and LAN COMMUNICATOR 9333). For those who
frequently analyse measurement data on PCs, this
function offers a good match. Also, connection to PCs
using RS-232C connection or GP-IB connection is
possible (using the optional RS-232C CARD 9557 and GP-IB
CARD
9558). 8826 data can be sent to PCs or be remotely
controlled from PCs.
* Because LAN card, GP-IB card, and RS-232C card all use the same PC card slot of 8826,
when one of them is inserted into the PC card slot, then any memory card cannot be used at the
same time.
■
Connect HiCORDER to departmental LAN (using TCP/IP communication protocol)
■
Save data to network server
(using TCP/IP communication protocol)
Copy measurement data files obtained from
HiCORDER to PC on network
PC running 9333 (software)
Offline data exchange with PCs
The supplied waveform viewer (PC application) can
convert saved waveform data to text files (CSV format).
For data storage, the FD/PC card (supplied as standard)
can be used. This allows easy offline data exchange with
PCs.
Note: The optional MO drive is discontinued.
Memory / main unit
Memory / main unit
Memory / main unit
* In addition to HiCORDER's read/write native file (binary format), data
can also be saved to text files (CSV format) which can be opened by PC
spreadsheet applications, or waveform bitmap files (BMP format). However,
because data saved in text f iles cannot be read by HiCORDER, it is
recommended that text data conversion be performed on PCs.
Color image output to the
network printer
Copy or remote operations of HiCORDER data files
from client PCs running 9333 (software)
Ethernet
Floppy disk
Flash ATA PC card
Input Voltage
Approx. Display
Vernier
Scaling
Variable
Scaling Functions
Actual measurements usually involve parameters other
than voltage. Various physical parameters such as
speed, vibration and temperature commonly need to be
recorded, and this signal data should be directly readable,
without having to be manually converted. In such
measurement conditions, the scaling function can be used
to automatically convert to the desired parameter value.
Additionally, waveform amplitude can be adjusted using
the Variable Gain function.
In addition, if accurate input voltage amplitude
measurement is not required, the amplitude can be
intentionally modified with the Vernier Adjustment
function.
Variable ON
Lower Limit Value
Shrink
Expand
Upper Limit Value
Variable OFF