SOURCES SOUGHT
14 -- Rapid Execution and Combat Targeting subsystem printer - Package #1
- Notice Date
- 3/17/2014
- Notice Type
- Sources Sought
- NAICS
- 334118
— Computer Terminal and Other Computer Peripheral Equipment Manufacturing
- Contracting Office
- Department of the Air Force, Air Force Materiel Command, AFLCMC / AFSC / AFNWC - HILL AFB, ., Hill AFB, Utah, 84056, United States
- ZIP Code
- 84056
- Solicitation Number
- FA8204-14-RFIWSSC
- Point of Contact
- Bruce James Richeson, Phone: 8017775535
- E-Mail Address
-
bruce.richeson@hill.af.mil
(bruce.richeson@hill.af.mil)
- Small Business Set-Aside
- N/A
- Description
- WSP List of Tables WSP List of Figures SOURCES SOUGHT SYNOPSIS: Message Generator Replacement Program (MGRP) Notice Type: Posted Date: Sources Sought 17 Mar 14 Synopsis: 1. NOTICE: This is not a solicitation but rather a Sources Sought Synopsis to determine potential sources for information and planning purposes only. 1.1. The purpose of this Sources Sought is to conduct market research to determine if responsible sources exist, to assist in determining if this effort can be competitive and/or a total Small Business Set-Aside. The proposed North American Industry Classification Systems (NAICS) Code is 334118 which has a corresponding Size standard of 1,000. The Government will use this information to determine the best acquisition strategy for this procurement. The Government is interested in all small businesses to include 8(a), Service-Disabled Veteran-Owned, Hubzone, and Women-Owned small business concerns. The government requests that interested parties respond to this notice if applicable and identify your small business status to the identified NAICS code. Additionally, please provide any anticipated teaming arrangements, along with a description of similar services offered to the Government and to commercial customers for the past three years. Any responses involving teaming agreements should delineate between the work that will be accomplished by the prime and the work accomplished by the teaming partners. 1.2. This notice of intent is not a request for competitive proposals. The Air Force will not pay for either the effort or the associated costs to respond, or for any information provided. A Determination by the Government not to compete this proposed contract based upon responses to information received will be normally considered solely for the purpose of determining whether to conduct a competitive procurement. 2. Program Details: 2.1. Background The printer is used in the Rapid Execution and Combat Targeting (REACT) subsystem, and is defined to be a Type I device in accordance with S-133-30001. There is a single printer for the system which is shared by both the weapon system control element (WSCE) and the rapid message processing element (RMPE) processors. The WSCE processor receives messages addressed to the printer from the WSCE internal print function, and from the primary and secondary higher authority communications (HAC)/RMPE, over a separate digital interface. 2.1.1 Interface definition. 2.1.1.1 Physical interfaces. - Electrical. The printer interfaces to the REACT Console Subassembly (RCS) (CI0032101) through signal and power connectors as specified by MIL-C-38999 Series IV. - Mounting. The printer interfaces with the RCS through mechanical attachments in the RCS. 2.1.1.2 Functional interfaces. - RCS to printer interface. - Electrical Power. The printer receives electrical power from the RCS Power Control and Distribution Unit (PCDU). Power has the following characteristics: a. Voltage: 120.0 Volts Alternating Current (Vac) b. Voltage Regulation: Plus or minus 2-4 volts c. Frequency: 60 (plus 2, minus 6) hertz (Hz) or 400 (plus 35, minus 20) Hz d. Phase: Single e. Red/Black power: Black f. Cooling: The printer interfaces with a cooling device which delivers a maximum of 770 British thermal units per hour of cool air. 2.1.1.3 WSP to printer interface. a. The printer receives electrical signals from the WSP specified as inputs in Table I. b. Data is received from the WSP over an asynchronous 9600 baud serial channel conforming to EIA RS-422-A. c. Data is received from the WSP asynchronously, 1 start bit, 8 data bits, 1 stop bit, even parity. Transmission is from left to right with the least significant bit (bI), as shown in Table II, transmitted first. d. Data consists of American Standard Code for Information Interchange (ASCII) codes between O (decimal) and 127 (decimal). The printer recognizes all ASCII codes between O (decimal) and 127 (decimal), and prints all characters between 32 (decimal) and 126 (decimal). e. The printer transmits status data to the WSP over an asynchronous 9600 baud serial output data channel conforming to EIA RS-422-A. The serial data is transmitted start bit first, eight data bits, even parity bit, and one stop bit. The eight bits of data consist of (starting with the first bit transmitted) an unused bit, door open, malfunction, off-line, paper low, parity error, top of form, and the eighth bit is not used. f. The printer provides a single control signal to the WSP (clear-to-send) for the purpose of throttling the data sent from the WSP conforming to EIA RS-422-A. 2.2 Characteristics. 2.2.1 Performance. The printer shall perform as specified herein when supplied with the signals, power, and cooling air as specified below: - Power consumption. The printer power consumption shall be a maximum of 250 watts. - Electrical signals. The printer shall supply electrical signals as specified in Table I. 2.2.2 Printable characters. The printer shall recognize all ASCII codes between O (base 10) and 127 (base 10), as defined in Table 11. The printer shall print characters represented by ASCII code 32 (base 10) to ASCII code 126 (base 10), and ASCII code 128 (base 10), as defined in Table II. - Line width. The printer shall print 80 characters per line at 11 characters per inch. - Line spacing. The printer shall print at least 6 lines per inch. - Print rate. The printer shall support a print speed of at least 240 lines/minute. - Paper. The printer shall use rolled or fan fold thermal paper. - Printed output viewing. A means shall be provided to allow the printed output to be viewed by the operator without paper removal. - Print buffer. The printer shall store a minimum of 80 printable characters as defined in Table II. When the data input buffer contains one full line, the printer shall print that line and advance to the first column of the next line. - Character form. The printed characters shall be in a dot matrix form. The individual characters shall be comprised of a matrix of dots arranged in an array of, at least 5 dots wide by 7 dots high. - Print size. The character print size shall be at least 0.08 inch high by 0.06 inch wide. - Control codes. As a minimum the printer shall respond to the control codes listed herein and in Table II. The printer shall respond to all other control codes not listed herein by inserting a space into the print buffer. - Line feed (LF). The printer shall respond to but not print the LF code. When the LF is received, the printer shall print the data in the buffer, and advance the active position to the first character position on the next line. - Carriage Return (CR). The printer shall respond to but not print the CR code. When the CR is received, the printer shall print the data in the buffer, and advance the active position to the first character position on the next line. - Form Feed (FF). The printer shall respond to but not print the FF code. When the FF is received, the printer shall print the data in the buffer, and advance to the top of the next form of fan fold paper or advance 20 character lines for roll paper. - End of Text (EOT). The printer shall respond to but not print the EOT code. When the EOT code is received, the printer shall respond by printing the data in the buffer with the EOT symbol (reference Table 11) at the end of the line, and advancing the printed message 20 print lines to allow viewing of the entire message. - Inquiry (ENCI). The printer shall respond to but not print the ENQ code. When the ENQ code is received, the printer shall respond by transmitting its status byte to the WSP. - Print readability and legibility. The print copy shall be readable from a distance of between 13 inches and 25 inches and at a viewing angle along the center line of the paper of 30 degrees above or below the normal to the displayed surface. The print output (legibility) shall be free from character line misregistration, character tilt or smear. The following character sets, in particular, shall be clearly distinguishable: zero, upper case "O"; G, 6; one, lower case 1, upper case I. - Indicators and controls. The printer controls and indicators shall be clearly labeled, initiate printer function, and display printer operational status as follows: Control or Indicator Function a. POWER ON (indicator) b. ON-OFF SWITCH c. FORM FEED When illuminated, indicates that primary power is being applied to the printer. Switches primary power to the printer. When depressed, it outputs contents of print buffer, then it advances the fan folded paper to the top of the next form or advances the roll paper 20 character lines. d. LINE FEED e. READY (indication) f. PAPER OUT (indication) g. SELF TEST When depressed, it outputs contents of print buffer, then it advances the paper one line at a time. Indicates that the printer is ready for printing. Illuminates when printer is out of paper. When depressed, prints the full 96 character printing set. 2.2.3 Physical characteristics. - Weight: The weight of the printer shall be less than 75 pounds. - Size: The size of the printer shall be a maximum of 19.5 inches deep by 15.0 inches wide by 8.5 inches high. - Mounting: The printer shall be mounted such that it can be removed from the front using removable fasteners. 2.2.4 Reliability. - Design life: The printer shall have a minimum design life of 15 years. - Mean time between failure (MTBF). The printer, when installed and operating shall have a MTBF of at least 50,000 hours. o MTBF defined: A basic measure of field reliability which is derived by dividing equipment operating hours by the number of failures for a particular measurement interval. 2.2.5 Maintainability. - Organizational level mean time to repair (MTTR). The allocated MTTR for the printer shall be a maximum of 0.90 hours. o MTRR defined: MTTR is the sum of corrective maintenance times at a specified repair level, divided by the total number of failures at that level. - Depot level MTTR. The allocated MTTR for the printer shall be a maximum of 6.5 hours. - Organizational level fault detection (FD) /fault isolation (FI). Ninety-five percent of all detectable faults shall be detected. The faults shall be indicated by one or more of the following: a. A fault indicator observable by the operator. b. Indications of faulty operation observable by the operator. c. Fault indications from built-in-test (BIT) that are accessible by interfacing software. o Detectable Faults defined: This is any fault that propagates its effects to a point on the LRU where, through its inherent design, it can be detected or monitored. For electrical and electronic LRU/SRU, a detectable fault is any fault that propagates its effects to at least one output or test connector pin when the LRU/SRU is in an operational configuration or when a stimulus is applied to its input pins. - Depot level FD/FI. At depot level, fault isolation shall utilize standard support equipment and trained personnel to accomplish the following: a. Detecting ninety-nine percent of all printer line replaceable unit (LRU) or shop replaceable unit (SRU) (detectable) faults. b. Isolate ninety percent of all detectable faults to one SRU/piece-part. c. Isolate ninety-five percent of all detectable faults to two or less SRUs/piece-parts. d. Isolate ninety-nine percent of all detectable faults to three or less SRUs/piece-parts. - False alarm rate. The probability of false indications from the printer and built-in-test (BIT) shall be a maximum of one percent of all BIT indicated failures. - Preventive maintenance. Preventive maintenance for the printer shall not be required at an interval of less than 365 days. - Power connectors. The printer shall provide a separate power connector for external input power - Soldering. No soldering or wire-wrap applications shall be required for the printer at the organizational level. - Circuit card removal. All circuit cards shall be removable without the use of special tools. 2..2.6 Environmental conditions. 2.2.6.1 Natural and induced environments. The printer shall meet the performance requirements of 2.2.1 before, during and after exposure to the following natural and induced environments: - Pressures: a. A non-operating pressure range of 8.8 to 15.5 pounds per square inch absolute (psia). b. An operating pressure range of 11.3 to 15.1 psia. - Temperature: a. A non-operating temperature range of minus 65 degrees Fahrenheit (F) to plus 160 degrees F. b. An operating air temperature range of 50 degrees F to 65 degrees F. c. The maximum operating temperature extends to 90 degrees F and a period of time in accordance with 3.1.2.2.3.1.2 of S-133-30001. - Humidity: a. A non-operating humidity range of from 1 to 100 percent noncondensing. b. An operating humidity range of 20 percent to 95 percent noncondensing. - Corrosive atmosphere: The corrosive agent Ozone occurs for the continental United States (CONUS), areas, and test areas in accordance with Table III. - Bench handling shock: A 1 inch flat drop or a 4 inch pivot drop onto a hard surface in any direction. 2.2.2.7 Nuclear environments. The printer shall survive and meet the performance requirements of 2.2.1 after exposure to the following Nuclear Weapons Effects (NWE) environments. The printer time line, after exposure to these NWE environments, shall be in accordance with CCS-TR2822, 2.8. - Electromagnetic pulse (EMP): The printer shall meet the performance requirements of 2.2.1 in the presence of the following EMP environments: a. Electric Field as specified in CCS-TR2822 (Section 3.2 - Electric Field) b. Magnetic field as specified in CCS-TR2822, 3.2.1.2.1.2, "MM/PIMS Magnetic Field Environment for all other WSCE Equipments" c. Conducted Transients as specified in CCS-TR2822 (Section 3.2 - Conducted Transients) - Nuclear radiation environments: The printer shall meet the performance requirements of 2.2.1 after exposure to the following radiation environments: a. Neutron Fluency as specified in CCS-TR2822 (Section 3.3,- Neutron Fluency). b. Gamma Dose Rate as specified in CCS-TR2822 (Section 3.3 --Gamma Dose Rate). c. Prompt Gamma Dose Rate as specified in CCS-TR2822 (Section 3.3 - Prompt Gamma Dose Rate). d. Secondary Gamma Dose Rate as specified in CCS-TR2822, (Section 3.3 - Secondary Gamma Dose Rate). e. Total Dose as specified in CCS-TR2822 (Section 3.3 - Total Dose). - Acoustic noise: The printer shall meet the performance requirements of 3.2.1 after exposure to the acoustic noise environments specified in CC!S-TR2822 (Section 3.4 - Acoustics). - Shock and vibration environment: The printer shall meet the performance requirements of 3.2.1 after exposure to the following shock and vibration environments: a. Maximum shock spectra as specified in CCS-TR2822 (Section 3.5 - Shock Spectra). b. Maximum rigid body accelerations as specified in CCS-TR2822 (Section 3.5 - Acceleration). c. Low frequency sinusoidal vibration as specified in CCS-TR2822 (Section 3.5 - Low Frequency Vibration). - Transportability: The packaged printer equipment shall be transportable by highway, railway, or aircraft. 2.3 Design and construction. 2.3.1 Materials, processes and parts. - Finishes: Protective finishes shall comply with MIL-F-7179 and MIL-S-5002. 2.3.1.1 Shielding. - Equipment enclosures: Printer equipment enclosures. including electrical connectors, shall provide a minimum shielding effectiveness of 60 decibels (dB) over a frequency range of 10 kilohertz (kHz) to 100 megahertz (MHz). Equipment enclosure access covers shall prevent damage to shielding devices during opening and closing. - Cable and connector design: a. Printer electrical connectors shall be designed to prevent misalignment of connectors and to prevent bent pins. b. Printer electrical connectors shall be selected or arranged so that it is physically possible to connect only the correct electrical cable. c. Printer connectors for electrical leads, or cables shall be of the quick-disconnect type at the LRU connections. d. All printer external connectors shall be clearly labeled to facilitate the assembly task. e. Printers shall have mounted connectors for the termination of external power and signal conductors. - Cable shielding: a. Printer external cable assembly shielding effectiveness shall be a minimum of 60 dB over a frequency range of 10 kHz to 100 Z. b. Wire shields shall not be used as current carrying conductors. c. Wire shields, on external cables shall be covered by an insulation layer. d. The printer shall provide for termination for shielded wires. e. External electromagnetic cables with internal individual shields on wires and twisted pairs shall be co-terminated with cable shields to the connector backshells. f. The printer shall maintain electrical continuity and isolation of circuitry shielding for protection against electromagnetic radiation (EMR) hazards. g. The printer shall provide metallic shielding caps for all EMR susceptible connectors. - Shield termination: a. Printer external electromagnetic cable shields shall be circumferentially bonded to connector backshells and, in turn, to the equipment cases through the connector shell structure. b. Individual printer internal shields on wires and twisted pairs shall be co-terminated with the cable shields. - Electrical reference plane and ground. - Electrical referencing. The electrical reference plane shall not be used for the conduction of functional current. - Electrical reference plane connections. Only one physical point in each electrical circuit shall be connected to the electrical reference plane. - Circuits to electrical reference plane isolation. All points of each circuit shall be isolated from the electrical reference plane by a minimum resistance of 1 mega ohm when the connection to the electrical reference plane is opened. - Intercircuit isolation. Intercircuit isolation shall assure a minimum of 6 dB safety margin between the total interference generated and the susceptibility threshold of each circuit. - Fungus inert materials. Materials which are fungus nutrient shall not be used except in hermetically sealed assemblies or unless protected with fungus resistant finishes. Fungus inert material shall conform to MIL-STD-454, Requirement 4. - Wiring. Wiring shall conform to the following: a. Wiring and harnessing shall conform to MIL-W-5088 - Electrical connections. Printer electrical connections shall conform to the following: a. Connections between termination points shall be accomplished by positive and mechanically secure means. b. Wire to connectors, shields, and terminal lugs @ shall be terminated in a crimp device. c. Not more than one wire (conductor) shall be terminated in a contact in an environmentally sealed connector, or two wires within a non-repairable assembly. d. Not more than one wire (conductor) shall be terminated in an individual terminal or lug with repairable assemblies. e. The maximum number of terminals or lugs to be connected to a single termination point shall be three for screw-type terminal boards. f. The use of solder sleeves shall be prohibited with repairable assemblies. 2.3.2 Electromagnetic Radiation - Alternating current (ac) and DC leads. - Electromagnetic emissions in the frequency range of 30 Hz to 15 kHz narrowband, and from 15 kHz to 50 MHz both narrowband and broadband, shall not appear on ac and DC leads which obtain power from other sources or provide power to other equipment and subsystems, in excess of the values shown in Figures 4, 5, and 6. Intentional transmissions of electrical energy by conduction on their intended leads at their specified power levels, and within their information bandwidths, shall be exempt from these requirements. The limits between 30 Hz and 15 kHz shall be met when measured with an effective bandwidth not exceeding the primary power frequency plus 20 percent of the power frequency for ac power leads or 75 Hz for DC power leads. - Switching transients. This requirement shall be applicable to ac and DC leads which obtain power from or provide power to other equipment and subsystems. Conducted switching transients shall be less than 50 microseconds in duration and be a maximum of the following: a. ac leads: plus or minus 50 percent of the nominal root mean square (rms) voltage. b. DC leads: plus 50 percent, minus 150 percent of the nominal line voltage. - Spike duration shall be the time interval between the 50 percent amplitude point on the transient leading edge and the 50 percent amplitude point on the trailing edge; high frequency ringing superimposed on the pulse leading edge or trailing edges should be ignored. 2.3.2.3 Power line transient susceptibility. - Continuous wave injection. For the frequency range of 30 Hz to 50 kHz, equipment shall not exhibit any malfunction when electromagnetic energy is injected onto equipment and subsystem ac and DC power leads, including grounds and neutrals which are not grounded internally to the equipment or subsystem. The injected voltage shall be less than or equal to the values of Figure 7. This requirement shall not be applicable for frequencies within plus or minus five percent of the power frequency(ies). This requirement shall also be met when the power source which is adjusted to dissipate 50 watts into a 0.5 ohm load, but cannot develop the rewired voltage at the test sample power input terminals, and the test sample does not malfunction when subjected to this lower voltage injection from the power source. For the frequency range of 50 kHz to 400 MHz, design equipment shall not exhibit any malfunction, degradation of performance, or deviation from specified indications, when subjected to 1 volt from a 50-ohm source. The 1 volt injection shall be applied directly to the equipment input terminals, not through the power line cord of the test sample. This requirement shall also be met when one-watt source of 50 ohms impedance cannot develop the required voltage at the test sample power input terminals and the test sample does not malfunction when subjected to this lower voltage injection from the power source. This requirement shall be applicable to equipment and subsystem ac and DC power leads, including grounds and neutrals which are not grounded internally to the equipment or subsystem. - Spike injection. This requirement shall be applicable to equipment ac and DC power leads, including grounds and neutrals which are not grounded internally to the equipment. The design equipment shall not exhibit any malfunction, degradation of performance, or deviation from specified indications, when the test spike having the waveform shown in Figure 8 is applied to power input leads. The test spike of Figure 8 shall be superimposed on the power line voltage waveform. The values of E and t of Figure 8 shall be as given below. E = 200 V; t < 5 us - For equipment whose power inputs are protected with varistors, the requirement shall also be met if the equipment is not susceptible to values of E equal to the maximum safe level of the varistor. 2.3.2.4 Equipment radiated emissions. This requirement shall be applicable for radiated emissions from equipment and subsystems, cables (including control, pulse, interface (IF), power, and antenna transmission lines), and interconnecting wiring of the test sample; for narrowband, it shall apply at the fundamental frequencies and all spurious emissions, including harmonics, but shall not apply to radiation from antennas. This requirement shall be applicable for broadband emissions from 14 kHz to 1 gigahertz (GHz) and for narrowband emissions from 14 kHz to 10 GHz. Above 30 MHz, the limits shall be met for both horizontally and vertically polarized waves. - Narrowband electric field (E-field) emissions. Narrowband E-field emissions shall not be radiated in excess of the limit curve shown in Figure 9. - Broadband E-field emissions. Broadband E-field emissions from all equipment and subsystems, including radiated switching transients resulting from automatic cycling of electronic or electrical switching circuitry, activation of push-to-talk mechanisms (that is, keying of transmitters), or manual switching, shall not radiate in excess of the limit curve. 2.3.3 Equipment radiated susceptibility. - Spike injection. The equipment shall not exhibit any malfunction, degradation of performance, or deviation from specified indications, when subjected to the test spike having the waveform shown in Figure 8. The values of E and t of Figure 8 shall be as follows: E = 400 V; t < 5 us - Power injection. The equipment shall not malfunction when up to 20 amperes of current at the power frequencies are applied to a test wire wrapped circumferentially around the equipment. - E-fields impingement. The equipment shall not exhibit any malfunction, degradation of performance, or deviation from specified indications, ‘when subjected to radiated E-fields less than or equal to those specified herein. Above 30 MHz, this requirement shall be met for both horizontally and vertically polarized waves; circularly polarized waves shall also be acceptable. Frequency Range E-Field 14 kHz to 30 MHZ 10 volts/meter 30 MHz to 1 GHz 5 volts/meter - Compromising emanations. The printer shall meet the Red Line/Black Line requirements of NACSIM 5100 for input 120 Vac 60 or 400 Hz power. 2.3.4 Human Performance/Human engineering. The printer shall comply with the general requirements, control/display integration, visual displays, audio displays, controls, labeling, anthropometry, workspace design requirements, environment, design for maintainability, hazards and safety, and user-computer interface criteria specified in MIL-STD-1472. Commercially mature equipment (CME) may be modified only when safety to personnel or equipment is affected. The following specific requirements shall also apply. - Painted surface colors. The printer painted surface color shall be gray, FED-STD-595 Color Number 26492. - Marking colors. The printer shall be marked with a black color, FED-STD-595 Color Number 17038. - Attach Points. The printer shall provide features that permit removal and replacement in accordance with 5.9.11.3.1 of MIL-STD-1472. - Connectors. Connectors for electrical cables shall be of the quick-disconnect type at LRU connections. Physical means shall be used to prevent incorrect or misaligned connector mating. All connectors shall be clearly labeled to facilitate the assembly task. Units shall have mounted connectors (male or female as may be required) for the termination of external power and signal conductors. Connectors and receptacles shall be supplied with captive, protective covers or caps" except where connections are permanently installed at the factory, or during assembly and checkout. - Guards and barriers. An electrical guard or barrier shall be solid except that holes in the barrier may be supplied for testing purposes. Such holes shall be clearly labeled as test points. - Exposed burrs, edges and corners. Exposed or protruding burrs, edges, and corners shall be rounded or otherwise treated to preclude injury to personnel or damage to the printer. - Labeling. Items weighing more than 37 pounds, as specified in Table XXIV of MIL-STD-1472, shall be prominently labeled with the weight of the object and the lift limitation. - Standards of manufacture. The printer shall be fabricated and assembled in accordance with Drawing CO04182 for Part Number CO04182-02 and all data assembled thereunder. - Environmental Stress Screening (ESS). The printer shall meet the requirements of 3.2.1 before and after exposure to the following: a. Random vibration. The fully assembled printer shall meet the requirements of 3.3.9 when subjected to a random vibration screen test. Additionally, spare printed wiring assemblies from the printer shall be tested separately. b. Thermal cycling. The fully assembled printer shall meet the requirements of 3.3.9 when subjected to a series of thermal cycle screen tests. Additionally, spare printed wiring assemblies from the printer shall be tested separately. 3. Effort This effort officially designated as the Weapon System Printer will be to use detailed technical drawings, specification, and requirements to produce ~100 Printers. 4. Contract Type It is anticipated that this effort will use a Fixed-Fee type contract. 5. Information Requested: Subject to the Government's consideration, a viable source, not already qualified to provide the requisite services should submit a concise and program specific response presenting sufficient information to substantiate that they have demonstrated: • The capability to produce the items in section 2.1. • The ability to acquire the infrastructure, hardware, software, tools, staff, etc. required for the production of the items in section 2.1. • The ability to provide engineering support and necessary training of associated equipment and hardware. • Experience with generating, editing, reviewing, and validating Drawings, Process Orders (PO's), Operating Instructions (OI's), Technical Orders (TO's) and Time Compliance Technical Orders (TCTO's). 6. Contracting Office Contact Information Responses must be submitted by 21 April 2014 NLT 4:00pm Mountain Standard Time to: ATTN: Bruce Richeson, AFNWC/PZBA Department of the Air Force, Air Force Materiel Command, Air Force Nuclear Weapon Center, 6014 Dogwood Ave (Bldg 1258), Hill AFB, UT, 84056-5816 Or, Bruce.Richeson@us.af.mil Or to: Melanie Thomas, AFNWC/PZBA Department of the Air Force, Air Force Materiel Command, Air Force Nuclear Weapon Center, 6014 Dogwood Ave (Bldg 1258), Hill AFB, UT, 84056-5816 Or, Melanie.Thomas@us.af.mil No phone or FAX requests will be accepted. TABLES AND FIGURES See attached
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