What is Blocknumber and Blocksize in a DL750 ScopeCorder ASCII Header?

What is Blocknumber and Blocksize in a DL750 ScopeCorder ASCII Header?
 
(example attached)
 
The “BlockNumber” relates to the number of records (acquisitions) you saved to the binary file.
 
EXAMPLE: if you saved 2 acquisitions from History Memory to a single binary file, then the “BlockNumber” will be 2.
If you saved 10 acquisitions from History Memory in a single binary file, then the “BlockNumber” will be 10.
 
“BlockSize” is the total number of data points.
 
From the screen shot example, the “BlockSize” is 100100.
 
Meaning that you will at least have “100100” number of rows in the CVS file.
 
However, you will also have to account for the number of rows used for header information in the CSV file.
This number remains constant (say X). Therefore the total number of rows in the CSV file will be “X + BlockSize”.
 

 

Produtos e Soluções Relacionadas

Aquisição de Dados (DAQ)

Os sistemas de aquisição de dados da Yokogawa proporcionam a você mais flexibilidade e poder para medir, exibir, armazenar e até mesmo atuar qualquer número de fenômenos físicos ou elétricos.

High Speed Data Acquisition

  • Yokogawa high-speed data acquisition systems
  • Industry-leading isolation, bit resolution, sampling rate, and memory depth
  • Independent channel hardware and easy to use software

Oscilloscopes Application Software

  • Yokogawa's oscilloscope application software
  • View, export, analyze, and manage data 

Osciloscópios

Osciloscópios digitais de classe mundial da Yokogawa: Os osciloscópios digitais têm amostragem de alta velocidade e uma ampla gama de larguras de banda que podem ser utilizadas para projeto e desenvolvimento de dispositivos eletrônicos. As ScopeCorders têm as vantagens de um osciloscópio digital e de um gravador de dados multicanal.

ScopeCorders

  • Flexible, high-performance Yokogawa ScopeCorder
  • Modular platform combines mixed signal oscilloscope and portable data acquisition recorder 
  • Captures high-speed transients and low-speed trends 

 

Precision Making

Topo