Electrical characteristics Sample Clauses
The 'Electrical Characteristics' clause defines the specific electrical requirements and standards that equipment or systems must meet under the agreement. This typically includes parameters such as voltage, current, frequency, and power ratings, and may specify compliance with certain industry standards or regulations. By clearly outlining these technical specifications, the clause ensures compatibility, safety, and reliable operation, thereby reducing the risk of equipment failure or disputes over performance.
Electrical characteristics. When measured according to the conditions specified in Annex 4, the voltage and wattage of the light source shall be within the limits given on the relevant data sheet.
Electrical characteristics. 1.3.1.1 The output jitter shall not exceed 0.75 UI under worst case operating conditions when measured in the frequency range 20 Hz to 100 KHz, as defined in ITU-T G.921 table 3.
1.3.1.2 The tolerance of both the LIME and the Telco input ports to jitter should be as defined in ITU-T Recommendation G.823.
1.3.1.3 A jitter measuring set conforming to the requirements of ITU-T Recommendation O.171 (Timing Jitter Measuring Equipment for Digital Systems) shall be used to measure jitter. LIME and the Telco shall co-operate in the application of testing methods as described in ITU-T Recommendation G.823.
1.3.1.4 The wander specification is set out in ITU-T recommendation G.823. The maximum values of wander at input ports must conform to section 3.1.1 of ITU-T Recommendation G.823.
Electrical characteristics. The electrical characteristics of the QF shall conform with standards established by the Cooperative. The standards include voltage, current, frequency, harmonics, and automatic synchronization, etc. Wherever possible the Cooperative will base its standards on industry wide standards.
Electrical characteristics. 5.1.2 Item (b)(65° rise) shall apply.
Electrical characteristics. Parameter Description Min. Typ. ▇▇▇. Unit
Electrical characteristics. Figure 2
(a) shows Coulomb staircase Ids-Vds characteristics of a Si NW SET, measured with an Agilent 4155B parameter analyser, from 8 K to 160 K. The curves here are offset 0.1 nA per temperature step for clarity. In this device, the NW Si core diameter was estimated to be < 20 nm, and the NW length was ~1 µm. The long NW length implies that a MTJ can exist along the NW. At 8 K, the first step occurs at ~7 V. In the MTJ system formed along the NW, the Coulomb gap and step widths are large as they are a function of the charging energies of many islands along the NW. The step width reduces with increasing temperature, as thermally activated current increases and single-electron effects are overcome in the larger islands, which have smaller charging energies. Figure 2(b) shows the Coulomb staircase at 8 K, as a function of gate voltage Vgs. As Vgs increases from 0 V to 30 V, a series of Coulomb diamonds can be observed. Here, the diamonds cannot be fully modulated by the gate voltages, as some of the MTJ islands do not couple to the gate.
Electrical characteristics. The electrical current of the LED replacement light source, except if it is a low-power type, shall be measured at ambient temperature of (23 ± 2) °C in still air after 1 minute and after 30 minutes of operation at test voltage. Measured values of the electrical current shall be within the limits as specified in the relevant data sheet of Annex 1.
Electrical characteristics. Section 3 of ANSI/TIA/EIA-613, Signal Characteristics (which references ANSI/TIA/EIA-612), shall apply.
Electrical characteristics. Seller covenants that the Facility will be operated with the electrical characteristics specified in Section 5.2.
Electrical characteristics. The single rated equipment capacity of the Sell Excess Facility to be connected in parallel with a low voltage service shall be no