Operational modes. T. On: Operational mode in which the CSTB is at least actively performing its base functionality. Note that the power consumption targets related to “On” mode might be variable over the time and dependent on the real functionality requested from the CSTB.
U. Standby: Operational mode in which the CSTB has less energy consumption, capability, and responsiveness than in the “On” mode. The power consumption targets related to “Standby” mode might be variable and dependent on the real functionality requested from the CSTB.
V. The CSTB may enter a Standby mode from the On mode after:
a. the CSTB receives a notification from the user to enter a standby mode via a power button press on a remote control or front panel of the unit, or through an electronic signal or data packet received via a digital interface on the CSTB; or
b. where APD is supported, the CSTB auto-powers down to a standby mode. The power consumption after auto-power down to standby and after a user initiated power down to standby may or may not be equivalent. ANNEX C – CALCULATION OF TOTAL ENERGY CONSUMPTION The energy consumption shall be calculated and declared taking into account the relevant provisions of this Annex. In this measurement process, the energy consumed in the On and standby modes will be multiplied by the number of hours a defined typical device spends in On and Standby. The result will be a single energy value representing the energy usage of the device over the course of an entire year: its Total Energy Consumption. Standby mode measurement should be taken at least 30 minutes after the device enters such a mode. The Total Energy Consumption of a CSTB is compared to its Total Energy Allowance to determine its compliance with this Voluntary Agreement. The following parts describe the way for determining CSTB yearly energy allowances as well as calculating their Total Energy Consumption.
Operational modes. A. On: Operational mode in which the CSTB is at least actively performing its base functionality. Note that the power consumption targets related to “On” mode might be variable over the time and dependent on the real functionality requested from the CSTB.
Operational modes. Off Mode: The power consumption level in the lowest power mode which cannot be switched off (influenced) by the user and that may persist for an indefinite time when the appliance is connected to the main electricity supply and used in accordance with the manufacturer's instructions. For systems where ACPI standards are applicable, the Off Mode correlates to ACPI System Level S5 state.
Operational modes. OFF: no power applied to ASIC
Operational modes. 3.2.1 OFF: no power applied to the sensor
3.2.2 WARM-UP: heater on, but sensor has not reached sensor operating temperature (3.1). LED off
3.2.3 CALIBRATE: heater on and sensor at operating temperature. Sensor single-point calibration routine (to be determined by S4MS) performed by control electronics on the CMS product.
3.2.4 STANDBY: heater on with temperature set-point set to the operating temperature. LED off
3.2.5 ON: heater on with temperature set-point set to the operating temperature, LED on. Power and duty cycle of LED to be determined by S4MS to meet measurement and life requirements.
Operational modes. L. On: Operational mode in which the CSTB is at least actively performing its base functionality. Note that the energy consumption targets related to “On” mode might be variable over the time and dependent on the real functionality requested from the CSTB.
X. Xxxxxxx: Operational mode in which the CSTB has less energy consumption, capability, and responsiveness than in the “On” mode .The energy consumption targets related to “Standby” mode might be variable and dependent on the real functionality requested from the CSTB.
N. The CSTB may enter a Standby mode from the On mode after:
a. The CSTB receives a notification from the user to enter a standby mode via a power button press on a remote control or front panel of the unit, or through an electronic signal or data packet received via a digital interface on the CSTB; or
b. Where APD is supported, the CSTB auto-powers down to a standby mode. The energy consumption after auto-power down to standby and after a user initiated power down to standby may, or may not be equivalent.
Operational modes. 3.2.1 OFF: no power applied to the sensor
3.2.2 WARM-UP: heater on, but sensor has not reached sensor operating temperature (3.1). LED off
Operational modes. 21 6.1.4.2 Functional Modes 21 6.1.4.3 Telecommands and Telemetry 22 6.1.4.4 Alarms management 22 Load definition 22 Contingencies 22 6.2 Auxiliary APM 23 General configuration 23 Physical description 23 Functional description 24 6.3 Operations 24 Operational modes 24 Functional modes 25 Telecommand and Telemetry 26 Alarms Management 26 Load Definition 26 Contingencies 26 UNPACKING AND INTEGRATION 27 7.1 ORBITAL APM 27 7.2 PLANETARY APM 27 CONTROLLERS SW 28 8.1 SIROM Controller 28 8.2 Primary APM Controller 30 8.3 Auxiliary APM Controller 32 LIST OF WARNINGS 33 The objective of the user manual (UM) is to provide information on design, operations and data of the product that is required by the user to handle, install, operate, maintain and dispose the product during its life time. The UM shall address the whole product life cycle and all its modes: 1. Handling 2. Storage 3. Installation 4. Operations (nominal and contingency) 5. Maintenance 6. Disposal. This document is the updated version for WP3 of the deliverable D2.17 OG5-D2_User Manual [RD03]. This is a preliminary version of the User Manual. The document will be updated in parallel to the MAIT phase in order to be ready for the OG6 testing phase.
Operational modes. The P-APM can be configured in different operational modes: Stowed, Power-OFF: The P-APM is switched OFF by the main switch that isolates the internal battery power. Stowed, Power-ON under rover: The P-APM is transported by the Sherpa rover and can be dropped to the operation location. Stowed, Power-ON on ground: The P-APM is switched ON and can provide most functionalities, except battery charging from solar panel. Deployed, Power-ON on ground: The P-APM is switched ON and can provide theoretically all functionalities (at the condition that solar power inputs is sufficient for charging operations).
Operational modes. Data entry Key access for data entry e.g., normal ranges, user ID list. Normal ranges Control ranges User ID Patient ID Date retrieval QC Patient Time/date of last QC run Analyze assay Print Set clock/timer
