Interfaces - Heidenhain
... power line or failure of the light source. It can be used for such purposes as machine shut-off during automated production. The distance between two successive edges of the incremental signals Ua1 and Ua2 through 1-fold, 2-fold or 4-fold evaluation is one measuring step. The subsequent electronics ...
... power line or failure of the light source. It can be used for such purposes as machine shut-off during automated production. The distance between two successive edges of the incremental signals Ua1 and Ua2 through 1-fold, 2-fold or 4-fold evaluation is one measuring step. The subsequent electronics ...
Multiterawatt few-cycle pulse OPCPA
... pulses were generated in 1996 at Lawrence Livermoore National Labs (LLNL, Nova 1.25PW, 0.5-ps) [16, 39]. This Petawatt amplifier was dismantled later to make way for the OMEGA-laser. Laser research facilities currently equipped with ”Petawatt-light” are the Rutherford Appleton Labs (RAL, Vulcan 1-PW, ...
... pulses were generated in 1996 at Lawrence Livermoore National Labs (LLNL, Nova 1.25PW, 0.5-ps) [16, 39]. This Petawatt amplifier was dismantled later to make way for the OMEGA-laser. Laser research facilities currently equipped with ”Petawatt-light” are the Rutherford Appleton Labs (RAL, Vulcan 1-PW, ...
0.5μm InP DHBT Technology for 100GHz+ Mixed Signal Integrated
... After fabrication, the static and dynamic frequency dividers were measured at room temperature on a wafer probe station. A conventional 50GHz CW source was used for low frequency measurement. Testing beyond 50GHz in the V, W and D-bands was performed with combination of low frequency source and freq ...
... After fabrication, the static and dynamic frequency dividers were measured at room temperature on a wafer probe station. A conventional 50GHz CW source was used for low frequency measurement. Testing beyond 50GHz in the V, W and D-bands was performed with combination of low frequency source and freq ...
Measurement Methods for Calculation of the Direction to a Flicker
... decrease in the voltage UL1 , and vice versa (if all impedances are considered linear). The changes of voltage and current envelopes in case 2 will therefore be in phase (see Figure 3), which is a different envelope pattern compared to the one in case 1. ...
... decrease in the voltage UL1 , and vice versa (if all impedances are considered linear). The changes of voltage and current envelopes in case 2 will therefore be in phase (see Figure 3), which is a different envelope pattern compared to the one in case 1. ...
AN4976, Controlling a DC motor using the PWT module on Kinetis E
... There are several types of speed sensor to implement a closed loop motor speed control, ranging from complex and expensive quadrature encoders to simple optical sensors. Once a sensor has been selected and properly included into the feedback loop, it will acquire a signal proportional to the rotor’s ...
... There are several types of speed sensor to implement a closed loop motor speed control, ranging from complex and expensive quadrature encoders to simple optical sensors. Once a sensor has been selected and properly included into the feedback loop, it will acquire a signal proportional to the rotor’s ...
Kondo physics in the single-electron transistor with ac driving Peter Nordlander
... by the time-averaged spectral density 具 dot( ⑀ ,t) 典 .13,14 For a given system, this average will depend on the driving amplitude V ac and frequency ⍀. In Fig. 2 we show the calculated 具 dot( ⑀ ,t) 典 as a function of energy ⑀ for a level with energy ⑀ dot(t)⫽ ⑀ dot⫹ ⑀ accos ⍀t at several differe ...
... by the time-averaged spectral density 具 dot( ⑀ ,t) 典 .13,14 For a given system, this average will depend on the driving amplitude V ac and frequency ⍀. In Fig. 2 we show the calculated 具 dot( ⑀ ,t) 典 as a function of energy ⑀ for a level with energy ⑀ dot(t)⫽ ⑀ dot⫹ ⑀ accos ⍀t at several differe ...