- We will send in 10–14 business days.
/images/books/10391556/9781494740979.jpg)
- Author: U S Department of Commerce
- Publisher: CreateSpace Independent Publishing Platform
- Year: 2014
- Pages: 52
- ISBN-10: 1494740974
- ISBN-13: 9781494740979
- Format: 21.6 x 28 x 0.3 cm, minkšti viršeliai
- Language: English
- SAVE -10% with code: EXTRA
A Four-Terminal Current Shunt with Calculable AC Response (e-book) (used book) | bookbook.eu
Reviews
Description
The design of a 0.1, four-terminal current shunt with calculable frequency dependence up to 1 MHz is described. It is intended for use as a standard for current measurements up to 10 A rms with the primary purpose of being able to tie alternating-current measurements to direct-current measurements. The shunt is of the bifilar flat-strip configuration where the effects of self-inductance, skin effect, capacitance, dissipation factor, and eddy-current losses are considered. Contributions of the individual effects, where applicable, are determined by calculation based on geometry and corroborated by differential measurements and finite-element field simulations. The uncertainties due to dimensional and electrical measurement tolerances are computed as well.
EXTRA 10 % discount with code: EXTRA
The promotion ends in 21d.06:15:35
The discount code is valid when purchasing from 10 €. Discounts do not stack.
- Author: U S Department of Commerce
- Publisher: CreateSpace Independent Publishing Platform
- Year: 2014
- Pages: 52
- ISBN-10: 1494740974
- ISBN-13: 9781494740979
- Format: 21.6 x 28 x 0.3 cm, minkšti viršeliai
- Language: English English
The design of a 0.1, four-terminal current shunt with calculable frequency dependence up to 1 MHz is described. It is intended for use as a standard for current measurements up to 10 A rms with the primary purpose of being able to tie alternating-current measurements to direct-current measurements. The shunt is of the bifilar flat-strip configuration where the effects of self-inductance, skin effect, capacitance, dissipation factor, and eddy-current losses are considered. Contributions of the individual effects, where applicable, are determined by calculation based on geometry and corroborated by differential measurements and finite-element field simulations. The uncertainties due to dimensional and electrical measurement tolerances are computed as well.
Reviews