FBODaily.com | FedBizOpps: SRCSGT | 59 | Electrical and Electronic Equipment Components

FBO DAILY - FEDBIZOPPS ISSUE OF SEPTEMBER 28, 2018 FBO #6153
SOURCES SOUGHT

59 -- Electrical and Electronic Equipment Components

Notice Date: 9/26/2018
Notice Type: Sources Sought
NAICS: 335314 — Relay and Industrial Control Manufacturing
Contracting Office: N62478 NAVFAC HAWAII ACQUISITION DEPARTMENT 400 MARSHALL RD PEARL HARBOR, HI
ZIP Code: 00000
Solicitation Number: OPHA1FY180003
Response Due: 10/12/2018
Archive Date: 10/27/2018
Point of Contact: Kimberlee Fujimoto, Kimberlee.Fujimoto@navy.mil
E-Mail Address: kimberlee.fujimoto@navy.mil
(kimberlee.fujimoto@navy.mil)
Small Business Set-Aside: N/A
Description: The Government intends to procure, under only one responsible source, where no other suppliers or service will satisfy the agency requirements. The Naval Facilities Engineering Command, Hawaii is seeking alternate products/sources comparable to the two œBrand Name components below: 1. SEL “ 751 Feeder Protection Relay, manufactured by Schweitzer Engineering Laboratories (SEL), 2350 NE Hopkins Court, Pullman, WA 99163. The alternate product/source must meet the following requirements/specifications: a. Phase, residual, and negative-sequence overcurrent elements (50P/50G/50Q) with optional directional control b. Phase, residual, and negative-sequence inverse-time overcurrent elements (51P/51G/51Q) with optional directional control c. Nondirectional sensitive earth fault (SEF) protection and directional ground protection on low-impedance grounded, ungrounded, high-impedance grounded, and Petersen coil grounded systems. d. Neutral overcurrent and inverse-time overcurrent elements (50N/51N) e. Breaker/contactor failure f. Auto-reclosing control (79) g. Arc-flash detection and arc-flash overcurrent (50PAF/50NAF) h. Vector shift elements (78VS) for islanding detection i. RTD thermal elements (49RTD) j. Line/cable thermal elements per IEC 60255-149 k. Over- and under-voltage (59/59G/59Q/27) l. Inverse-time over- and under-voltage elements (59I, 27I) m. Directional power elements (32) n. Power factor (55) o. Over- and under-frequency (81) p. Rate-of-change of frequency (81R) q. Loss-of-potential (60) r. Synchronism check (25) s. Fast rate-of-change of frequency (81RF) for Aurora vulnerability mitigation t. Second- and fifth-harmonic blocking u. High-impedance fault (HIF) detection. The relay shall include HIF detection algorithms capable of detecting HIF signatures without being affected by loads and other system operation conditions. The relay shall make HIF summary, history, and event information available. v. Fault locator. The relay shall include a fault-locating algorithm to calculate fault location without communications channels, special instrument transformers, or prefault information. w. Synchrophasors. The relay shall include operation as a phasor measurement unit (PMU) following the IEEE C37.118-2005 Standard for Synchrophasors for Power Systems. x. Adaptive phase overcurrent elements. The relay shall incorporate adaptive phase overcurrent elements that perform reliably in the presence of current transformer saturation, dc offset, and off-frequency harmonics. y. Automation shall include the following logic and control functions: 32 local control logic points, 32 remote control logic points, 32 latching logic points, 32 counters, 32 math variables, 32 logic variables, and 32 timers. z. ASCII, Modbus ® RTU/TCP, DeviceNet, Event Messenger, MIRRORED BITS ®, SNTP, Telnet, FTP, DNP3 serial and LAN/WAN, IEEE C37.118 (synchrophasor data), IEC 60870-5-103, and IEC 61850 Edition 2 protocols. aa. Parallel Redundancy Protocol (PRP) and fast failover switching for dual Ethernet models. bb. One front-panel EIA-232 port and one rear-panel EIA-232 or EIA-485 port, one optional ST fiber-optic serial port, and an optional single or dual, copper or fiber-optic Ethernet port(s). cc. Capability for an additional rear-panel EIA-232 or EIA-485 port. dd. Windows ®-based PC software for setting, report retrieval, metering, HMI, and control. ee. The relay shall have a touchscreen display. The front panel shall be capable of displaying controllable bay screens, metering and monitoring data, targets, events, summary and SER information, relay status and configuration, controllable relay operations, editable settings, and the rotating display settings. The front panel shall have a minimum of 6 user-programmable tricolor LEDs, a TARGET RESET and HOME pushbutton, and 4 or 8 user-programmable pushbutton controls with 8 or 16 programmable tricolor LEDs, respectively. ff. The relay shall be capable of monitoring and reporting: Load-profile monitoring. Provide periodic snap-shot (selectable rate from every 5 to 60 minutes) of as many as 17 selectable analog quantities; Metering. The relay shall include metering capabilities for real-time current, voltage, power, energy qualities, and demand and peak demand current and power values. RTD temperature metering, synchrophasor data metering, and minimum/maximum metering shall also be included. The arc-flash protection shall include light metering. Event summaries and reports. Fault type and trip data, including time of tripping; Raw 32-samples/cycle reports are available as files in binary COMTRADE format (ANSI C37.111-1999); Filtered 4-samples/cycle and 32-samples/cycle unfiltered reports are available in ASCII and Compressed ASCII formats; Event reports can be set as 15-cycle length (as many as 70 reports), 64-cycle length (as many as 17 reports), or 180-cycle length (as many as 6 reports); SER. As many as 1,024 time-tagged, most recent input, output, and element transitions; Data stored in nonvolatile, Flash memory; Station battery monitor with two levels of detection; Breaker wear monitoring; Event report with arc-flash light input; High-impedance fault event reports. gg. The relay shall have hardware capable of: Operating temperature range of “40 ° to +85 °C; Power supply input operating voltage range of 24/48 Vdc, 125/250 Vdc, or 120/240 Vac; Demodulated IRIG-B time synchronization input capability; 5 A or 1 A, ac current inputs IA, IB, IC, and an optional 200 mA sensitive IN input; Arc-flash detection (AFD) inputs; Flexible, configurable I/O, including digital I/O and analog I/O; Electromechanical or optional fast hybrid (high-speed, high-current interruption) digital outputs; Optoisolated digital inputs; Jumper-selectable current (as high as ±20 mA) or voltage (as high as ±10 V) analog inputs; Jumper-selectable current (as high as ±20 mA) or voltage (as high as ±10 V) analog outputs; Relay models with the touchscreen display shall be CE, UL, cUL, and RCM certified. 2. SEL 787 Relay, manufactured by Schweitzer Engineering Laboratories (SEL), 2350 NE Hopkins Court, Pullman, WA 99163, The alternate product/source must meet the following requirements/specifications: a. Percentage Differential Protection. The relay shall incorporate restrained differential protection for two windings with fixed or variable percentage, using one or two settable slopes with adjustable intersection point and minimum pickup values. b. CT Phase Angle Compensation. The relay shall incorporate full œround-the-clock current compensation, in 30-degree increments, to accommodate virtually any type of transformer and CT winding connection. c. Harmonic Elements. The relay shall incorporate second-, fourth-, and fifth-harmonic elements, with the choice of either harmonic blocking or harmonic restraint to prevent restrained differential element operation during inrush or over excitation conditions; an independent fifth-harmonic alarm element shall be included to warn of an over excitation condition. d. Unrestrained Differential Protection. The relay shall include unrestrained differential protection to produce rapid tripping for severe internal faults. e. Restricted Earth Fault Protection. The relay shall incorporate restricted earth fault (REF) protection for the detection of ground faults in wye-connected windings. f. Overcurrent Fault Protection. The relay shall incorporate two groups of three-phase current inputs that can be independently enabled for overcurrent protection. Overcurrent elements per group shall be included to provide phase, neutral, negative sequence, and residual protection. g. Over excitation Volts/Hertz Protection. The relay shall incorporate volts/hertz protection as an ordering option to detect and provide an output when user-settable volts/hertz thresholds are exceeded. h. Breaker Failure Protection. The relay shall provide breaker failure detection for two breakers. Breaker failure detection shall provide subsidence current detection to minimize system coordination times. i. Directional Power Protection. The relay shall provide three-phase directional power protection elements with real (watts) and reactive (VARs) input selection. j. Loss-of-Potential Detection. The relay shall provide loss-of-potential detection elements for detecting open voltage transformer fuses or other conditions that cause a loss of relay secondary voltage k. Automation shall include the following logic and control functions: 32 local control logic points, 32 remote control logic points, 32 latching logic points, 32 counters, 32 math variables, 32 logic variables, and 32 timers. l. ASCII, Modbus RTU, DeviceNet, Telnet, FTP, SNTP, Modbus TCP, DNP LAN/WAN, SNTP, IEEE C37.118 (synchrophasor data), and IEC 61850 protocols. m. One front-panel EIA-232 port and one rear-panel EIA-232 or EIA-485 port, one fiber-optic serial port, and optional single or dual copper or fiber-optic Ethernet port. n. Capability for an additional rear-panel EIA-232 or EIA-485 port. o. Windows ®-based PC software for settings and report retrieval. p. The relay shall provide high-accuracy phasor measurements for voltages and currents if an IRIG-B signal is available. q. The relay shall provide a selectable synchrophasor data update rate of 1 “10 times per second. r. The front panel shall be capable of displaying measured values, calculated values, I/O status, device status, and configuration parameters on a front-panel LCD display. The display shall have a rotating capability to display custom messages and data. Thirty-two display messages shall be provided. The front panel shall also have a minimum of six user-programmable LEDs and four user-programmable pushbutton controls with eight programmable LEDs. s. The relay shall be capable of monitoring and reporting: Load-Profile Monitoring. Provides periodic snapshot (selectable rate from every 5 to 60 minutes) of as many as 17 selectable analog quantities; Metering. The relay shall include metering capabilities for real-time current, voltage, power, energy quantities, and differential quantities, as well as phase demand and peak demand current values. Harmonic content from the fundamental to the fifth harmonic for all ac current and voltage inputs shall be included. RTD temperature metering, synchrophasor data metering, and minimum/maximum metering shall also be included; Through-Fault Event Monitor. The relay shall provide for the capability of reporting fault current level, duration, and date/time for overcurrent events through the differential protection zone. A settable I2t alarm indicates an excess of accumulated through-fault energy; Event Summaries. Fault type and trip data, including time of tripping; Event Reports. 15-cycle length (as many as 77 reports) or 64-cycle length (as many as 19 reports) with 4 or 16 samples/cycle resolution; Sequential Events Recorder (SER). As many as 1024 time-tagged, most recent input, output, and element transitions; Settings, Event Report, and SER Data. Stored in nonvolatile, Flash memory. t. The relay shall have hardware capable of: Operating temperature range of “40 ° to +85 °C; Power supply input operating voltage range of 24/48 Vdc, 125/250 Vdc, or 120/240 Vac; Demodulated IRIG-B time-synchronization input capability; 5 A or 1 A, ac current inputs IAW1, IBW1, ICW1, IAW2, IBW2, ICW2, and optional IN input; Flexible, configurable I/O, including digital I/O and analog I/O; Electromechanical or fast, high current interrupting (optional) digital outputs; Optoisolated digital inputs; Jumper-selectable current (up to ±20 mA range) or voltage (up to ±10 V range) analog inputs; Jumper-selectable current (up to ±20 mA range) or voltage (up to ±10 V range) analog outputs; Relay front panel shall meet the requirements of NEMA 12/IP65; CE and UL for the U.S. and Canada, including Class I, Division 2 hazardous locations applications, and RCM certified This should not be construed as a commitment of any kind by the U.S. Government to issue a solicitation. Interested parties with a comparable product meeting the requirements described in this announcement are invited to submit complete information and specifications. Any information provided to the Government in response to this request for information (RFI) will become U.S. Government property and will not be returned. All proprietary or classified information will be treated appropriately. Interested parties shall submit information and specifications to Ms. Kimberlee Fujimoto via email at Kimberlee.fujimoto@navy.mil. Interested parties responding to this announcement by Friday, October 12, 2018 at 2:00 p.m. Hawaii Standard Time will be considered.
Web Link: FBO.gov Permalink
(https://www.fbo.gov/spg/DON/NAVFAC/N62742PH/OPHA1FY180003/listing.html)
Place of Performance: Address: NAVFAC Hawaii Code OPHA1 400 Marshall Road; Zip Code: Joint Base Pearl Harbor Hickam Hawaii 96860, JBPHH, HI
Record: SN05106129-W 20180928/180926231057-d5057afc8d96664d7339dcbc5509d7ea (fbodaily.com)
Source: FedBizOpps Link to This Notice
(may not be valid after Archive Date)

| FSG Index | This Issue's Index | Today's FBO Daily Index Page |

Loren Data's SAM Daily™

59 -- Electrical and Electronic Equipment Components