Power Supply Noise Susceptibility Sample Clauses

The Power Supply Noise Susceptibility clause defines the requirements and limitations regarding how much electrical noise or interference a power supply can tolerate without malfunctioning. In practice, this clause sets specific thresholds for acceptable noise levels, such as voltage fluctuations or electromagnetic interference, that the power supply must withstand during operation. By establishing these standards, the clause ensures reliable performance of electronic equipment and helps prevent malfunctions or failures caused by excessive noise, thereby safeguarding the overall system's stability and functionality.
Power Supply Noise Susceptibility. A host system will supply stable power to the module and guarantee that noise & ripple on the power supply does not exceed that defined in Table 4-1. A possible example of a power supply filtering circuit that might be used on the host system is a PI C-L-C filter. A module will meet all electrical requirements and remain fully operational in the presence of noise on the 3.3V power supply which is less than that defined in the table 4-1. The component values of a power supply noise filtering circuit, such as the capacitor and inductor, must be selected such that maximum Inrush and Turn-off current does not cause voltage transients which exceed the absolute maximum power supply voltage, all specified in Table 4-1. Parameters Symbol Min Typ. Max Unit Class 2 - - 8 Class 3 - - 12 Class 4 - - 16 Class 5 - - 20 Class 6 - - 24 Low Power Mode Dissipation Plow - - 2 W Operating Power Supply Voltage VCC 3.2 3.3 3.4 V Operating Power Supply Current1 Class 1 and 2 ICC - - 2.5 A Class 3 and 4 - - 5 Class 5 and 6 - - 7.5 Inrush Current2 Class 1 and 2 I-inrush - - 150 mA/usec Turn-off Current I-turnoff -150 - - Inrush Current2 Class 3 and 4 I-inrush - - 300 Turn-off Current I-turnoff -300 - - Inrush Current2 Class 5 and 6 I-inrush - - 450 Turn-off Current I-turnoff -450 - - Power Supply Noise Vrip - - 2% 3% DC ±1MHz 1 ±10MHz 1 Maximum current per pin shall not exceed 800 mA. Those power classes for which the maximum current per pin exceeds 800 mA will require agreement from an electrical connector supplier.
View SourceView Similar (34)
Power Supply Noise Susceptibility. A host system will supply stable power to the module and guarantee that noise & ripple on the power supply does not exceed that defined in the table. A possible example of a power supply filtering circuit that might be used on the host system is a PI C-L-C filter. A module will meet all electrical requirements and remain fully operational in the presence of noise on the 3.3V power supply which is less than that defined in the table 4-1. The component values of power supply noise filtering circuit, such as the capacitor and inductor, must be selected such that maximum Inrush and Turn-off current does not cause voltage transients which exceed the absolute maximum power supply voltage, all specified in Table 4-1. Parameters Symbol Min Typ. Max Unit Class 2 - - 6 Class 3 - - 9 Class 4 - - 12 Class 5 - - 15 Class 6 - - 18 Low Power Mode Dissipation Plow - - 2 W Class 3 and 4 ICC - - 3.75 A Class 5 and 6 ICC - - 5.625 A Inrush Current5 Class 1 and 2 I-inrush - - 100 mA/usec Turn-off Current I-turnoff -100 - - mA/usec Inrush Current4 Class 3 and 4 I-inrush - - 200 mA/usec Turn-off Current I-turnoff -200 - - mA/usec Inrush Current4 Class 5 and 6 I-inrush - - 250 mA/usec 4 Maximum current per pin shall not exceed 500mA. Those power classes for which the maximum current per pin exceeds 500mA will require agreement from an electrical connecter supplier.
View SourceView Similar (30)
Power Supply Noise Susceptibility. 39 A host system will supply stable power to the module and guarantee that noise & ripple on the power supply 40 does not exceed that defined in the table. A possible example of a power supply filtering circuit that might be 41 used on the host system is a PI (proportional integral) C-L-C filter. A module will meet all electrical 42 requirements and remain fully operational in the presence of noise on the 3.3V power supply which is less 43 than that defined in the table 4-1. The component values of power supply noise filtering circuit, such as the 1 capacitor and inductor, must be selected such that maximum Inrush and Turn-off current does not cause 2 voltage transients which exceed the absolute maximum power supply voltage, all specified in Table 4-1.
View SourceView Similar (3)
Power Supply Noise Susceptibility. ‌ 13 A host system will supply stable power to the module and guarantee that noise & ripple on the power 14 supply does not exceed that defined in Table 4-1. A possible example of a power supply filtering circuit 15 that might be used on the host system is a PI C-L-C filter. A module will meet all electrical requirements 16 and remain fully operational in the presence of noise on the 3.3V power supply which is less than that
View Source
Power Supply Noise Susceptibility. A host system will supply stable power to the module and guarantee that noise & ripple on the power supply does not exceed that defined in the table. An example of a power supply noise suppression circuit is shown in figure 4-1 below. A module will meet all electrical requirements and remain fully operational in the presence of noise on the 3.3V power supply which is less than that defined in the table 4-1. Parameters Symbol Min Typ. Max Unit Absolute Maximum Power Supply Voltage VCC 3.6 V Operating Power Supply Voltage VCC 3.2 3.3 3.4 V Current6 ICC - - TBD A Total Power Dissipation Pw - - TBD W Low Power Mode Dissipation Plow 2 W Inrush Current I-inrush 50 mA/usec Turn-off Current I-turnoff -50 mA/usec 2% DC – 1MHz Power Supply Noise Vrip 3% 1 – 10MHz
View Source
Power Supply Noise Susceptibility. ‌ Per Reference [1]. Table 4-1 Voltage power supply‌ Parameters Symbol Min Typ. Max Unit Absolute Maximum Power Supply Voltage VCC - - 3.6 V Total Power Dissipation Class 1 Pw - - 3 W Class 2 - - 6 Class 3 - - 9 Class 4 - - 12 Class 5 - - 15 Class 6 - - 18 Low Power Mode Dissipation Plow - - 2 W Operating Power Supply Voltage VCC 3.2 3.3 3.4 V Operating Power Supply Current3 Class 1 and 2 ICC - - 1.875 A Class 3 and 4 ICC - - 3.75 A Class 5 and 6 ICC - - 5.625 A Inrush Current4 Class 1 and 2 I-inrush - - 100 mA/usec Turn-off Current I-turnoff -100 - - mA/usec Inrush Current4 Class 3 and 4 I-inrush - - 200 mA/usec Turn-off Current I-turnoff -200 - - mA/usec Inrush Current4 Class 5 and 6 I-inrush - - 250 mA/usec Turn-off Current I-turnoff -250 - - mA/usec Power Supply Noise Vrip - - 2% 3% DC – 1MHz 1 – 10MHz
View Source
Power Supply Noise Susceptibility. A host system will supply stable power to the module and guarantee that noise & ripple on the power supply does not exceed that defined in the table. A possible example of a power supply filtering circuit that might be used on the host system is a PI C-L-C filter. A module will meet all electrical requirements and remain fully operational in the presence of noise on the 3.3V power supply which is less than that defined in the table 4-1. The component values of power supply noise filtering circuit, such as the capacitor and inductor, must be selected such that maximum Inrush and Turn-off current does not cause voltage transients which exceed the absolute maximum power supply voltage, all specified in Table 4-1. Parameters Symbol Min Typ. Max Unit Absolute Maximum Power Supply Voltage VCC - - 3.6 V Total Power Dissipation Class 1 Pw - - 3 W Class 2 - - 6 Class 3 - - 9 Class 4 - - 12 Class 5 - - 15 Class 6 - - 18 Low Power Mode Dissipation Plow - - 2 W Class 3 and 4 ICC - - 3.75 A Class 5 and 6 ICC - - 5.625 A Inrush Current5 Class 1 and 2 I-inrush - - 100 mA/usec Turn-off Current I-turnoff -100 - - mA/usec Inrush Current4 Class 3 and 4 I-inrush - - 200 mA/usec Turn-off Current I-turnoff -200 - - mA/usec Inrush Current4 Class 5 and 6 I-inrush - - 250 mA/usec 4 Maximum current per pin shall not exceed 500mA. Those power classes for which the maximum current per pin exceeds 500mA will require agreement from an electrical connecter supplier. 5 For modules which present a small capacitive load to the host during hot plug (C ≤ 500nF), the portion of the inrush current due to charging the capacitor can be excluded from the total inrush current which must meet the maximum limit specification. Turn-off Current I-turnoff -250 - - mA/usec Power Supply Noise Vrip - - 2% 3% DC – 1MHz 1 – 10MHz
View Source

Related to Power Supply Noise Susceptibility

  • Elements Unsatisfactory Needs Improvement Proficient Exemplary IV-A-1. Reflective Practice Demonstrates limited reflection on practice and/or use of insights gained to improve practice. May reflect on the effectiveness of lessons/ units and interactions with students but not with colleagues and/or rarely uses insights to improve practice. Regularly reflects on the effectiveness of lessons, units, and interactions with students, both individually and with colleagues, and uses insights gained to improve practice and student learning. Regularly reflects on the effectiveness of lessons, units, and interactions with students, both individually and with colleagues; and uses and shares with colleagues, insights gained to improve practice and student learning. Is able to model this element.

  • Prior Disaster Relief Contract Violation Under Sections 2155.006 and 2261.053 of the Texas Government Code (relating to convictions and penalties regarding Hurricane ▇▇▇▇, Hurricane ▇▇▇▇▇▇▇, and other disasters), the Contractor certifies that the individual or business entity named in this Contract and any related Solicitation Response is not ineligible to receive this Contract and acknowledges that this Contract may be terminated and payment withheld if this certification is inaccurate.

  • Loop Provisioning Involving Integrated Digital Loop Carriers 2.6.1 Where Freedom has requested an Unbundled Loop and BellSouth uses IDLC systems to provide the local service to the End User and BellSouth has a suitable alternate facility available, BellSouth will make such alternative facilities available to Freedom. If a suitable alternative facility is not available, then to the extent it is technically feasible, BellSouth will implement one of the following alternative arrangements for Freedom (e.g. hairpinning): 1. Roll the circuit(s) from the IDLC to any spare copper that exists to the customer premises. 2. Roll the circuit(s) from the IDLC to an existing DLC that is not integrated. 3. If capacity exists, provide "side-door" porting through the switch. 4. If capacity exists, provide "Digital Access Cross Connect System (DACS)- door" porting (if the IDLC routes through a DACS prior to integration into the switch). 2.6.2 Arrangements 3 and 4 above require the use of a designed circuit. Therefore, non- designed Loops such as the SL1 voice grade and UCL-ND may not be ordered in these cases. 2.6.3 If no alternate facility is available, and upon request from Freedom, and if agreed to by both Parties, BellSouth may utilize its Special Construction (SC) process to determine the additional costs required to provision facilities. Freedom will then have the option of paying the one-time SC rates to place the Loop.

  • Selection of Subcontractors, Procurement of Materials and Leasing of Equipment The contractor shall not discriminate on the grounds of race, color, religion, sex, national origin, age or disability in the selection and retention of subcontractors, including procurement of materials and leases of equipment. The contractor shall take all necessary and reasonable steps to ensure nondiscrimination in the administration of this contract. a. The contractor shall notify all potential subcontractors and suppliers and lessors of their EEO obligations under this contract. b. The contractor will use good faith efforts to ensure subcontractor compliance with their EEO obligations.

  • SLEEPING CAPACITY/DISTURBANCES Tenant and all other occupants will be required to vacate the premises and forfeit the rental fee and security deposit for any of the following: Occupancy exceeding the sleeping capacity, using the premises for any illegal activity, causing damage to the premises rented or to any of the neighboring properties and any other acts which interfere with neighbors' right to quiet enjoyment of their premises. iTrip or the Owner, does not assume any liability for loss, damage or injury to persons or their personal property. Neither does the owner accept any liability for any inconveniences, damage, loss or injury arising from any temporary defects or stoppage in supply of water, gas, cable service, electricity or plumbing, as well as due to weather conditions, natural disasters, acts of God, or other reasons beyond its control. Tenant hereby acknowledges that the premises they have reserved may include a pool and the undersigned agrees and acknowledges that the pool and patio/deck can be dangerous areas, that the deck/patio can be slippery when wet, and that injury may occur to anyone who is not careful. With full knowledge of the above facts and warnings, the undersigned Tenant accepts and assumes all risks involved to Tenant and all of Tenant's guests in or related to the use of the community pool and patio areas.