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Technical Data Automation Kit elimination of asynchronous operation
| №
| Description
| Information:
| Note
| | Required Customer
| Guaranteed Contractor
| | 1.
| Type
|
|
| Analog AM RP "Diamant" NPP "Hartron-INKOR"
| | 2.
| Manufacturer
|
|
| | 3.
| Standards
|
|
|
| | 4.
| Technical description
| | 4.1
| Nominal test voltage, V (phase)
|
|
|
| | 4.2
| Rated measuring current, A
| 1.0 or 5.0
|
|
| | 4.3
| Rated voltage (DC), V
| =220
|
|
| | 4.4
| Voltage reliable switching digital input,V
| 145-242
|
|
| | 4.5
| Power failure safe digital input,V
| 0-132
|
|
| | 4.6
| The number of current inputs (1A), things., Not less
|
|
|
| | 4.7
| Number of voltage inputs, pcs., Not less
|
|
|
| | 4.8
| Digital inputs
| yes
|
|
| | 4.9
| Digital outputs (relay outputs)
| Yes
|
|
| | 4.10
| Control voltage circuits (CVC)
| Yes
|
|
| | 5.
| Algorithm impedance (of resistance)
| | 5.1
| The angle of maximum sensitivity (selectable), deg
| 1 – 89
(1)
|
|
| | 5.2
| The width of the zone of operation of the resistance Z1, Z2, Z3 (discrete), Ohm
| 0 – 800
(0,01)
|
|
| | 5.3
| Upper and lower limit of the zone triggering resistance Z1, Z2, Z3, Ohm
| -800? + 800
|
|
| | 5.4
| Areas return of resistance Z1, Z2, Z3 (discrete), Ohm
| 0-100
(0,01)
|
|
| | 5.5
| The time between the triggering sensor (Z1) and rough (Z2) body resistance (digital), sec
| 0,01-10
(0,01)
|
|
| | 5.6
| Setting blocking voltage reverse order (discrete),V
| 0 – 20
(0,05)
|
|
| | 5.7
| Setpoint correction active power (discrete), W
| -1000? + 1000 (0,01)
|
|
| | 5.8
| The dropout voltage reverse order (discrete)
| 0,5-1
(0,01)
|
|
| | 5.9
| Duration of RA (discrete), sec
| 0 – 100 (0,01)
|
|
| | 5.10
| Return time AEAO (digital), sec
| 0 – 300 (0,01)
|
|
| | 5.11
| Number of half cycles of AR (discrete)
| 1 – 40 (1)
|
|
| | 5.12
| The duration of the output signals (digital), sec
| 0,01 – 100 (0,01)
|
|
| | 5.13
| Pause after tripping stage AEAO (digital), sec
| 0-100
(0,01)
|
|
| | 6.
| Algorithm corner
| | 6.1
| Number of steps
|
|
|
| | 6.2
| The real component of the resistance of the main branch (discrete), Ohm
| 0 – 800
(0,01)
|
|
| | 6.3
| The real component of the impedance of the additional branch (discrete), Ohm
| 0 – 800
(0,01)
|
|
| | 6.4
| The real component of the resistance of the main branch of the (discrete), Ohm
| 0 – 800
(0,01)
|
|
| | 6.5
| The real component of the impedance of the additional branch (discrete), Ohm
| 0 – 800
(0,01)
|
|
| | 6.6
| The imaginary component of the resistance of the main branch of the (discrete), Ohm
| 0 – 800
(0,01)
|
|
| | 6.7
| The imaginary component of the impedance of the additional branch (discrete), Ohm
| 0 – 800
(0,01)
|
|
| | 6.8
| The imaginary component of the resistance of the main branch of the (discrete), Ohm
| 0 – 800
(0,01)
|
|
| | 6.9
| The imaginary component of the impedance of the additional branch (discrete), Ohm
| 0 – 800
(0,01)
|
|
| | 6.10
| Blocking U1 (discrete), V
| 0 – 100 (0,01)
|
|
| | 6.11
| Blocking U2 (discrete),V
| 0 – 100 (0,01)
|
|
| | 6.12
| Blocking U0 (discrete),V
| 0 – 100 (0,01)
|
|
| | 6.13
| Blocking excess I1 (discrete), A
| 0 – 10 (0,01)
|
|
| | 6.14
| Blocking decrease I1 (discrete), A
| 0 – 10 (0,01)
|
|
| | 6.15
| Blocking I2 (discrete), A
| 0 – 10 (0,01)
|
|
| | 6.16
| Blocking I0 (discrete), A
| 0 – 10 (0,01)
|
|
| | 6.17
| Lock for sliding (discrete)
| -180? +180 (1)
|
|
| | 6.18
| The dropout ratio for the U1 (discrete)
| 1 – 1,5 (0,01)
|
|
| | 6.19
| The dropout ratio for U2 (discrete)
| 0 – 1 (0,01)
|
|
| | 6.20
| The dropout ratio of U0 (discrete)
| 0 – 1 (0,01)
|
|
| | 6.21
| The dropout ratio for exceeding I1 (discrete)
| 0 – 1
(0,01)
|
|
| | 6.22
| The dropout ratio for lowering I1 (discrete)
| 1 – 1,5
(0,01)
|
|
| | 6.23
| Reset ratio I2 (discrete)
| 0 – 1 (0,01)
|
|
| | 6.24
| The dropout ratio I0 (discrete)
| 0 – 1 (0,01)
|
|
| | 6.25
| The dropout ratio for the slip (discrete)
| 0 – 1
(0,01)
|
|
| | 6.26
| Time cranking one cycle 1 (2) stage (discrete), sec
| 0 – 20
(0,01)
|
|
| | 6.27
| Number of cycles 1 (2) stage (discrete)
| 0 – 10 (0,1)
|
|
| | 6.28
| Delay 1 (2) level (logic),sec
| 0 – 20 (0,01)
|
|
| | 6.29
| Length off 1 (2) stage (discrete), sec
| 0 – 20 (0,01)
|
|
| | 7.
| UAEAO
| | 7.1
| Number of half cycles UAEAO (discrete)
| 1 – 40 (1)
|
|
| | 7.2
| Pick-zero sequence (discrete), A
| 0.02 – 150 (0.01)
|
|
| | 7.3
| The dropout ratio of zero sequence current (digital), A
| 0.5 – 1,0 (0.01)
|
|
| | 7.4
| The duration of the output signal (digital), sec
| 0.01 – 100 (0.01)
|
|
| | 7.5
| Delay on activation (selectable), sec
| 0,00 – 100 (0.01)
|
|
| | 7.6
| Return time (digital), sec
| 0.00 – 5 (0.01)
|
|
| | 8.
| Features function control voltage circuit (CVC)
| | 8.1
| Setting range response and return on U1 (discrete),V
| 0 – 200
(0,01)
|
|
| | 8.2
| Setting range response and return of U2 (discrete), V
| 0 – 200
(0,01)
|
|
| | 8.3
| Setting range response and return of U0 (discrete),V
| 0 – 200
(0,01)
|
|
| | 8.4
| Setting range tripping I1 (discrete), A
| 0 – 200 (0,01)
|
|
| | 8.5
| Setting range tripping I2 (discrete), A
| 0 – 200 (0,01)
|
|
| | 8.6
| Setting range tripping I0 (discrete), A
| 0 – 200 (0,01)
|
|
| | | | | | | |
Technical data set command RP and SA - Tx, Rx
| №
| Description
| Information:
| Note
| | Required Customer
| Guaranteed Contractor
| | 1.
| Type
|
| The analogue ACA "Kedr" LLC "Uralenergoservis"
| | 2.
| Manufacturer
|
| | 3.
| Standards
|
|
|
| | 4.
| Technical description:
| | 4.1
| The principle of command - frequency identification (single-frequency or dual-frequency serial code)
| Yes
|
|
| | 4.2
| Additional functions:
- Signaling telemetry
- Signal transmission phase frequency voltage.
Additional features are implemented using the principle of manipulation of the control frequency (CF1/CF2)
| Yes
|
|
| | 5.
| Characteristics of work on high channels
| | 5.1
| Frequency range, kHz
| 24-1000
|
|
| | 5.2
| The width of the operating band, kHz
| 4,0
|
|
| | 5.3
| Step restructuring basic starting frequency, kHz
| 1,0
|
|
| | 5.4
| The transmission level of the HF signal on a linear frequency control output dBm
| +31 ± 0,5
|
|
| | 5.5
| The level of the HF signal transmission commands to the linear output dBm
| +45 ± 0,5
|
|
| | 5.6
| Range modulating the transmission level of the HF signal, however, dB
|
|
|
| | 5.7
| Attenuation is entered in 75-ohm path at offset from the edge of the nominal band, no more, dB
|
|
|
| | 5.8
| Nominal input resistance Rx, Ohm
| 75±15
|
|
| | 5.9
| Receiver selectivity at offset from the edge of the operating band of 6 Hz, dB
| ≥ 80
|
|
| | 5.10
| Mirror channel selectivity, dB
| ≥ 80
|
|
| | 5.11
| The dynamic range, however, dB
|
|
|
| | 5.12
| Time transfer command (if derived cell delay), no more, msec
|
|
|
| | 5.13
| Monitoring the output level of the transmitter in a predetermined range
| Yes
|
|
| | 5.14
| Control the receiver for:
| | 5.14.1
| the presence of the pilot signal
| Yes
|
|
| | 5.14.2
| reduction in the level of reception of the pilot signal (warning signal)
| Yes
|
|
| | 5.14.3
| limit reduction reception (Emergency Signal)
| Yes
|
|
| | 5.15
| The delay in the formation of a command signal from the moment the input of the transmitter control action, not more, msec
|
|
|
| | 5.16
| Stability Control System clock frequency for the individual RPMs and Tx. The hardware and software is provided by way of frequency stabilization is not worse, ppm
| ±2
|
|
| | 6.
| General technical characteristics of equipment
| | 6.1
| Operational current constant,
|
|
|
| | 6.2
| Power consumption of the transmitter at the maximum level of signal transmission, W
|
|
|
| | 6.3
| Power consumption receiver, W
|
|
|
| | 6.4
| Two transmission mode commands:
- Long (over time the control action)
- Short-term (within preassigned time)
| Yes
|
|
| | 6.5
| Selecting the command: separate for each team
| Yes
|
|
| | 6.6
| Setting mode - with the PCR unit and the PC during commissioning and during operation
| Yes
|
|
| | 6.7
| The duration of command transmission, the range msec
| 20 - 200
(Step 1 msec)
|
|
| | 6.8
| Transfer delay information on the channel, no more msec
|
|
|
| | 6.9
| Time software delay retransmission command msec
| 10-500
(Step 2 msec)
|
|
| | 6.10
| Symptom TX Lock command is entered separately for each team
| Yes
|
|
| | 6.11
| The ability to block the transmission / reception command (separately for each Team)
| Yes
|
|
| | 6.12
| Software delay implementation team at the receiver, msec
| 0-10
(Step 1 msec)
|
|
| | 6.13
| The delay in the return of the relay team set independently for each team, msec
| 0-1500
(Step 2 msec)
|
|
| | 6.14
| Time monitoring of the received command, msec
| 10-500
(Step 2 msec)
|
|
| | 6.15
| The "restart" the failure of the supply voltage at which the receiver is able to "put" msec
| 2-5
(Step 1 msec)
|
|
| | 6.16
| Ability to set (individually) for each team (receiver and transmitter) frequency encoding
| Yes
|
|
| | 6.17
| Ability to set (individually) for each team select the output relay at the receiver
| Yes
|
|
| | 6.18
| The number of transmitted / received commands (can be changed during operation)
| 16/24/32
|
|
| | 6.19
| The presence of two normally open and two normally closed contacts of the output relays
| Yes
|
|
| | 6.20
| The maximum current through each contact output and alarm relay in the chain of active-inductive load, no more, A
| 0,15
|
|
| | 6.21
| Warning signaling
| Yes
|
|
| | 6.22
| Signaling reception / transmission of commands
| Yes
|
|
| | 6.23
| The presence of internal self prirabote mode LF translation
| Yes
|
|
| | 6.24
| The display can be set and view the current settings
| Yes
|
|
| | 6.25
| Blocking mode translation
| Yes
|
|
| | 7.
| LAN Interface
| | 7.1
| The equipment can be connected to the local power facility information network through the interface with the electrical parameters of the standard RS485, protocol IEC 870-5-101
| Yes
|
|
| | 7.2
| Data exchange rate is fixed, bit / s
|
|
|
|
Technical data sets and data relay protection and emergency teams on FCL
| №
| Description
| Information:
| Note
| | Required Customer
| Guaranteed Contractor
| | 1.
| Type
|
|
| Аналог FOX-515 фирмы «АББ»
| | 2.
| Manufacturer
|
|
| | 3.
| Standards
|
|
|
| | 4.
| Technical description
| |
| Data transmission system for fiber-optic
| | 4.1
| The rate of traffic signals,
- Kbit / s
- Mbit / s
|
n?64 (n=1…31)
2, STM-1
|
|
| | 4.2
| Cross switching:
- Кbit/s
- Мbit/s
|
|
|
| |
| Module (block) command system
| | 4.3
| Number command transmission channels and digital signals, at least
|
|
|
| | 4.4
| The number of commands transmitted in the channel at least
|
|
|
| | 4.5
| Duplex channel commands
| Yes
|
|
| | 4.6
| Transmission mode selection command:
- Speed;
- For reliability
| Yes
|
|
| | 4.7
| Continuous monitoring of performance for each team
| Yes
|
|
| | 4.8
| The presence of cross - switching level:
- commands;
- output system
| Yes
|
|
| | 4.9
| Setting range (adjustable input voltage, Vin) V
| 24-20
|
|
| | 4.10
| Settable threshold voltage input
| ≥0,6 Uin
|
|
| | 4.11
| Compliance with IEC 60834-1
| Yes
|
|
| | 4.12
| Ability to send "long" team for the duration of the trigger factor, however, sec
|
|
|
| | 4.13
| Number of transmitted digital signals (Y / N) in one channel with 4 teams
|
|
|
| | 4.14
| Bi-directional transmission of digital signals in the channel
| yes
|
|
|
Requirements Crossover
| №
| Description
| Information:
| Note
| | Required Customer
| Guaranteed Contractor
| | 1.
| Type
|
|
|
| | 2.
| Manufacturer
|
|
|
| | 3.
| Standards
|
|
|
| | 4.
| Technical requirements for Crossover
| | 4.1
| Set tuning frequencies of filters in the range kHz
| 36 - 1000
|
|
| | 4.2
| Ability frequency tuning filter within an acceptable range in operating conditions
| Yes
|
|
| | 4.3
| The attenuation introduced by crossover frequencies fasting protection (transfer trip equipment) for the closure of the input circuits of communications, no more, dB
| 0.9
|
|
| | 4.4
| Attenuation introduced crossovernetwork in the communication channel at the frequencies spaced by 10% of the operating frequency of the fast protection not more dB
| 0.9
|
|
| | 4.5
| The insulation resistance between the housing and the input terminals of the crossover, though, MOhm
|
|
|
| | 4.6
| Jobs in the scheme of the channel "phase-to-ground"
| Yes
|
|
|
|
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