cam controller - перевод на русский
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cam controller - перевод на русский

CONTROLLER FOR DISK STORAGE, USUALLY INTEGRATED INTO THE DRIVE
Hard disk controller; Hard drive controller; HD controller; Drive controller
  • RLL]] hard disk controller produced in 1990.
Найдено результатов: 270
cam controller      

общая лексика

кулачковый контроллер

disk controller         

общая лексика

дисковый контроллер, контроллер диска

плата расширения и/или микросхема, обеспечивающая взаимодействие процессора с дисковым накопителем

cam mechanism         
  • Biochemistry of CAM
  • Overview of CAM
  • Overnight graph of {{CO2}} absorbed by a CAM plant
  • CAM is named after the family [[Crassulaceae]], to which the [[jade plant]] belongs.
  • Cross section of a CAM (Crassulacean acid metabolism) plant, specifically of an [[agave]] leaf. [[Vascular bundle]]s shown. Drawing based on microscopic images courtesy of Cambridge University Plant Sciences Department.
METABOLIC PROCESS
CAM plants; CAM photosynthesis; Crassulacean Acid Metabolism; CAM pathway; Crassulacean acid; CAM plant; Cam plant; Crassulean acid metabolism; CAM respiration; Cam Plants; Crassulacean acid Metabolism Plants; Crassulacean acid Metabolism Plant; CAM cycle; Crassulacean; CAM mechanism
кулачковый механизм
cam mechanism         
  • Biochemistry of CAM
  • Overview of CAM
  • Overnight graph of {{CO2}} absorbed by a CAM plant
  • CAM is named after the family [[Crassulaceae]], to which the [[jade plant]] belongs.
  • Cross section of a CAM (Crassulacean acid metabolism) plant, specifically of an [[agave]] leaf. [[Vascular bundle]]s shown. Drawing based on microscopic images courtesy of Cambridge University Plant Sciences Department.
METABOLIC PROCESS
CAM plants; CAM photosynthesis; Crassulacean Acid Metabolism; CAM pathway; Crassulacean acid; CAM plant; Cam plant; Crassulean acid metabolism; CAM respiration; Cam Plants; Crassulacean acid Metabolism Plants; Crassulacean acid Metabolism Plant; CAM cycle; Crassulacean; CAM mechanism

общая лексика

кулачковый механизм

CAM plant         
  • Biochemistry of CAM
  • Overview of CAM
  • Overnight graph of {{CO2}} absorbed by a CAM plant
  • CAM is named after the family [[Crassulaceae]], to which the [[jade plant]] belongs.
  • Cross section of a CAM (Crassulacean acid metabolism) plant, specifically of an [[agave]] leaf. [[Vascular bundle]]s shown. Drawing based on microscopic images courtesy of Cambridge University Plant Sciences Department.
METABOLIC PROCESS
CAM plants; CAM photosynthesis; Crassulacean Acid Metabolism; CAM pathway; Crassulacean acid; CAM plant; Cam plant; Crassulean acid metabolism; CAM respiration; Cam Plants; Crassulacean acid Metabolism Plants; Crassulacean acid Metabolism Plant; CAM cycle; Crassulacean; CAM mechanism

общая лексика

растение с обменом по типу толстянковых

CAM-растение

crassulacean acid metabolism         
  • Biochemistry of CAM
  • Overview of CAM
  • Overnight graph of {{CO2}} absorbed by a CAM plant
  • CAM is named after the family [[Crassulaceae]], to which the [[jade plant]] belongs.
  • Cross section of a CAM (Crassulacean acid metabolism) plant, specifically of an [[agave]] leaf. [[Vascular bundle]]s shown. Drawing based on microscopic images courtesy of Cambridge University Plant Sciences Department.
METABOLIC PROCESS
CAM plants; CAM photosynthesis; Crassulacean Acid Metabolism; CAM pathway; Crassulacean acid; CAM plant; Cam plant; Crassulean acid metabolism; CAM respiration; Cam Plants; Crassulacean acid Metabolism Plants; Crassulacean acid Metabolism Plant; CAM cycle; Crassulacean; CAM mechanism

общая лексика

метаболизм карбоновых кислот по типу толстянковых

CAM-метаболизм

PID controller         
  • Showing the evolution of analog control loop signaling from the pneumatic to the electronic eras
  • Response of PV to step change of SP vs time, for three values of ''K''<sub>d</sub> (''K''<sub>p</sub> and ''K''<sub>i</sub> held constant)
  • Response of PV to step change of SP vs time, for three values of ''K''<sub>i</sub> (''K''<sub>p</sub> and ''K''<sub>d</sub> held constant)
  • Proportional control using nozzle and flapper high gain amplifier and negative feedback
  • Effects of varying PID parameters (K<sub>p</sub>,K<sub>i</sub>,K<sub>d</sub>) on the step response of a system
  • A [[block diagram]] of a PID controller in a feedback loop. ''r''(''t'') is the desired process value or setpoint (SP), and ''y''(''t'') is the measured process value (PV).
  • PID with derivative filtering
  • PID without derivative filtering
  • Response of PV to step change of SP vs time, for three values of ''K''<sub>p</sub> (''K''<sub>i</sub> and ''K''<sub>d</sub> held constant)
  • Basic block of a PI controller
  • alt=
  • Early PID theory was developed by observing the actions of [[helmsmen]] in keeping a vessel on course in the face of varying influences such as wind and sea state.
  • Current loops used for sensing and control signals. A modern electronic "smart" valve positioner is shown, which will incorporate its own PID controller.
CONTROL LOOP MECHANISM USED IN CONTROL ENGINEERING
PID loop; Proportional-Integral-Derivative controller; PID tuning; PID algorithm; Proportional integral derivative; PI controller; PD controller; PID control; PI Controller; Pi controller; Pidc; PID Controller; Proportional–integral–derivative controller; P.I.D. control; Droop (control); Proportional-integral-derivative controller; PID feed back controller; PID feedback controller; Three term controller; Steady-state error
ПИД-регулятор, пропорционально-интегральный (изодромный) регулятор с предварением
three term controller         
  • Showing the evolution of analog control loop signaling from the pneumatic to the electronic eras
  • Response of PV to step change of SP vs time, for three values of ''K''<sub>d</sub> (''K''<sub>p</sub> and ''K''<sub>i</sub> held constant)
  • Response of PV to step change of SP vs time, for three values of ''K''<sub>i</sub> (''K''<sub>p</sub> and ''K''<sub>d</sub> held constant)
  • Proportional control using nozzle and flapper high gain amplifier and negative feedback
  • Effects of varying PID parameters (K<sub>p</sub>,K<sub>i</sub>,K<sub>d</sub>) on the step response of a system
  • A [[block diagram]] of a PID controller in a feedback loop. ''r''(''t'') is the desired process value or setpoint (SP), and ''y''(''t'') is the measured process value (PV).
  • PID with derivative filtering
  • PID without derivative filtering
  • Response of PV to step change of SP vs time, for three values of ''K''<sub>p</sub> (''K''<sub>i</sub> and ''K''<sub>d</sub> held constant)
  • Basic block of a PI controller
  • alt=
  • Early PID theory was developed by observing the actions of [[helmsmen]] in keeping a vessel on course in the face of varying influences such as wind and sea state.
  • Current loops used for sensing and control signals. A modern electronic "smart" valve positioner is shown, which will incorporate its own PID controller.
CONTROL LOOP MECHANISM USED IN CONTROL ENGINEERING
PID loop; Proportional-Integral-Derivative controller; PID tuning; PID algorithm; Proportional integral derivative; PI controller; PD controller; PID control; PI Controller; Pi controller; Pidc; PID Controller; Proportional–integral–derivative controller; P.I.D. control; Droop (control); Proportional-integral-derivative controller; PID feed back controller; PID feedback controller; Three term controller; Steady-state error

строительное дело

ПИД-регулятор, пропорционально-интегральный (изодромный) регулятор с предварением

three term controller         
  • Showing the evolution of analog control loop signaling from the pneumatic to the electronic eras
  • Response of PV to step change of SP vs time, for three values of ''K''<sub>d</sub> (''K''<sub>p</sub> and ''K''<sub>i</sub> held constant)
  • Response of PV to step change of SP vs time, for three values of ''K''<sub>i</sub> (''K''<sub>p</sub> and ''K''<sub>d</sub> held constant)
  • Proportional control using nozzle and flapper high gain amplifier and negative feedback
  • Effects of varying PID parameters (K<sub>p</sub>,K<sub>i</sub>,K<sub>d</sub>) on the step response of a system
  • A [[block diagram]] of a PID controller in a feedback loop. ''r''(''t'') is the desired process value or setpoint (SP), and ''y''(''t'') is the measured process value (PV).
  • PID with derivative filtering
  • PID without derivative filtering
  • Response of PV to step change of SP vs time, for three values of ''K''<sub>p</sub> (''K''<sub>i</sub> and ''K''<sub>d</sub> held constant)
  • Basic block of a PI controller
  • alt=
  • Early PID theory was developed by observing the actions of [[helmsmen]] in keeping a vessel on course in the face of varying influences such as wind and sea state.
  • Current loops used for sensing and control signals. A modern electronic "smart" valve positioner is shown, which will incorporate its own PID controller.
CONTROL LOOP MECHANISM USED IN CONTROL ENGINEERING
PID loop; Proportional-Integral-Derivative controller; PID tuning; PID algorithm; Proportional integral derivative; PI controller; PD controller; PID control; PI Controller; Pi controller; Pidc; PID Controller; Proportional–integral–derivative controller; P.I.D. control; Droop (control); Proportional-integral-derivative controller; PID feed back controller; PID feedback controller; Three term controller; Steady-state error
ПИД-регулятор, пропорционально-интегральный (изодромный) регулятор с предварением
PID controller         
  • Showing the evolution of analog control loop signaling from the pneumatic to the electronic eras
  • Response of PV to step change of SP vs time, for three values of ''K''<sub>d</sub> (''K''<sub>p</sub> and ''K''<sub>i</sub> held constant)
  • Response of PV to step change of SP vs time, for three values of ''K''<sub>i</sub> (''K''<sub>p</sub> and ''K''<sub>d</sub> held constant)
  • Proportional control using nozzle and flapper high gain amplifier and negative feedback
  • Effects of varying PID parameters (K<sub>p</sub>,K<sub>i</sub>,K<sub>d</sub>) on the step response of a system
  • A [[block diagram]] of a PID controller in a feedback loop. ''r''(''t'') is the desired process value or setpoint (SP), and ''y''(''t'') is the measured process value (PV).
  • PID with derivative filtering
  • PID without derivative filtering
  • Response of PV to step change of SP vs time, for three values of ''K''<sub>p</sub> (''K''<sub>i</sub> and ''K''<sub>d</sub> held constant)
  • Basic block of a PI controller
  • alt=
  • Early PID theory was developed by observing the actions of [[helmsmen]] in keeping a vessel on course in the face of varying influences such as wind and sea state.
  • Current loops used for sensing and control signals. A modern electronic "smart" valve positioner is shown, which will incorporate its own PID controller.
CONTROL LOOP MECHANISM USED IN CONTROL ENGINEERING
PID loop; Proportional-Integral-Derivative controller; PID tuning; PID algorithm; Proportional integral derivative; PI controller; PD controller; PID control; PI Controller; Pi controller; Pidc; PID Controller; Proportional–integral–derivative controller; P.I.D. control; Droop (control); Proportional-integral-derivative controller; PID feed back controller; PID feedback controller; Three term controller; Steady-state error

строительное дело

ПИД-регулятор, пропорционально-интегральный (изодромный) регулятор с предварением

Определение

disk controller
<hardware, storage> (Or "hard disk controller", HDC) The circuit which allows the CPU to communicate with a {hard disk}, floppy disk or other kind of disk drive. The most common disk controllers in use are IDE and SCSI controllers. Most home personal computers use IDE controllers. High end PCs, workstations and network {file servers} mostly have SCSI adaptors. (1998-03-16)

Википедия

Disk controller

The disk controller is the controller circuit which enables the CPU to communicate with a hard disk, floppy disk or other kind of disk drive. It also provides an interface between the disk drive and the bus connecting it to the rest of the system.

Early disk controllers were identified by their storage methods and data encoding. They were typically implemented on a separate controller card. Modified frequency modulation (MFM) controllers were the most common type in small computers, used for both floppy disk and hard disk drives. Run length limited (RLL) controllers used data compression to increase storage capacity by about 50%. Priam created a proprietary storage algorithm that could double the disk storage. Shugart Associates Systems Interface (SASI) was a predecessor to SCSI.

Modern disk controllers are integrated into the disk drive as peripheral controllers. For example, disks called "SCSI disks" have built-in SCSI controllers. In the past, before most SCSI controller functionality was implemented in a single chip, separate SCSI controllers interfaced disks to the SCSI bus.

These integrated peripheral controllers communicate with a host adapter in the host system over a standardized, high-level storage bus interface. The most common types of interfaces provided nowadays by host controllers are PATA (IDE) and Serial ATA for home use. High-end disks use Parallel SCSI, Fibre Channel or Serial Attached SCSI.

Disk controllers can also control the timing of access to flash memory which is not mechanical in nature (i.e. no physical disk).

Как переводится cam controller на Русский язык