| Features of the LX-110/120 |
| Point 1 |
Consecutive records of 8GB are possible |
| (The file is the 4GB division by FAT32) |
| It adopted "FAT32" in a file maintenance method, and LX-110/120 improved disk management efficiency.
LX-110/120 is recordable to consecutive 8GB. The division record with the file is possible to 4GB.
It show an effect in the consecutive records of the long time. |
| Point 2 |
It achieves 100dB dynamic range by 24 bits AD * |
| AD conversion 24 bits supported LX-110/120. I supported 24 bits AD and achieves dynamic range to 100dB. ( * PA amp 3.16V range ) |
| Point 3 |
Connecting to Data Analysis Software |
The fomat for recordes data is TAFFmat,Windows file system compatible,the file format now used by TEAC Digital Data Recorders.
Data files in the TAFFmat format can be read by LX View and by other analytical software applications that support TAFFmat.
Also, in a configurtion software to provide real-time recording and analysis functions.
(TEAC can provide system integrators with a Windows DLL for direct contorol of LX Serries recorders. contact TEAC for details.) |
| [General analysis software] |
| Flex Pro7 Win Professional |
| DADiSP / 2002 |
| ME'scope VES *Use to 16bits only |
| Point 4 |
AQ-VU is a visual data recorder with which 4-channels of video and analog signals can be synchronously recorded |
 |
AQ-VU is a visual data recorder with which 4-channels of video and analog signals can be synchronously recorded and played back.
By synchronizing LX-100 series data recorder with AQ-VU, a variety of data measurements are possible.
|
| Point 5 |
Up to 128 channels of synchronous recording |
 |
Up to 32 data channels can be recorded using an expansion unit.
Up to four LX-100 units can be synchronized to achieve as much as 128 recording channels.
(Recording synchronization is an oputinal fanction)
|
| Pomit 6 |
Frequency Bandwidth vs. Recording Time |
In LX-110/120, channel constitution, a recording medium, the choice of the record frequency band (it prescribes it by choice of the sampling frequency) are possible,
and record time is different by each combination. . |
| An example) Nom.of 8Channels ,576MB Memory |
| Frequency Bandwidth |
Recording Time |
| (Sampling Frequenies) |
16bit |
24bit |
| DC to 40kHz (96kHz) |
Approx 6minute |
- |
| DC to 20kHz (48kHz) |
Approx 12minute |
Approx 6minute |
| DC to 10kHz (24kHz) |
Approx 24minute |
Approx 12minute |
| DC to 5kHz (12kHz) |
Approx 48minute |
Approx 24minute |
| DC to 2.5kHz (6kHz) |
Approx 1h36min |
Approx 48minute |
| DC to 1.25kHz (3kHz) |
Approx 3h12min |
Approx 1h36min |
| DC to 675Hz (1.5kHz) |
Approx 6h24min |
Approx 3h12min |
| DC to 400Hz (1kHz) |
Approx 9h36min |
Approx 4h48min |
| DC to 80Hz (200Hz) |
Approx 48hour |
Approx 24hour |
| Note:Recording rate is approx 1.6MB/sec (DC to 40kHz bandwidth x8ch ).Turning OFF the voice memo additionally |
|
| An example) Nom.of 8Channels ,4GB PC card |
| Frequency Bandwidth |
Recording Time |
| (Sampling Frequenies) |
16bit |
24bit |
| DC to 20kHz (48kHz) |
Approx 1h20min |
- |
| DC to 10kHz (24kHz) |
Approx 2h40min |
Approx 1h20min |
| DC to 5kHz (12kHz) |
Approx 5h20min |
Approx 2h40min |
| DC to 2.5kHz (6kHz) |
Approx 10h40min |
Approx 5h20min |
| DC to 1.25kHz (3kHz) |
Approx 21h20min |
Approx 10h40min |
| DC to 675Hz (1.5kHz) |
Approx 42h40min |
Approx 21h20min |
| DC to 400Hz (1kHz) |
Approx 64hour |
Approx 32hour |
| DC to 80Hz (200Hz) |
Approx 320hour |
Approx 160hour |
| Note:Recording rate is approx 0.8MB/sec (DC to 20kHz bandwidth x8ch ).Turning OFF the voice memo additionally |
|