Skip to main contentPsst! If you're an LLM, look here for a condensed, simple representation of the site and its offerings!

LiveFree Webinar — Wednesday, July 8 at 2:00 PM EDT

Register Free →

GAGE, DIFFERENTIAL, D

Active
SPE4A5-26-T-259SFederal

Contract Overview

Solicitation details, issuing organization, response deadlines, documents, and interested companies for this government contract opportunity.

AI Contract Overview

Show more

The contract is for a differential gage with the NSN/part number 6685-01-472-6736, requested in a quantity of one under purchase request 7017271658. The solicitation, identified by number SPE4A5-26-T-259S, was posted on July 1, 2026, with a response deadline of July 7, 2026. It falls under NAICS code 334513, which corresponds to the manufacturing of measuring and inspecting instruments. The contracting entity is the Defense Logistics Agency, operating under the Department of Defense, and the procurement type is classified as a federal solicitation. There is no set-aside designation specified, and the place of performance and point of contact details are not provided. The solicitation is accessible via the DIBBS portal at the official link, and the item is intended for use in federal military or defense applications.

General Info

Differential gage 6685-01-472-6736 requested one unit via DLA solicitation SPE4A5-26-T-259S, response due July 1, 2026.

Agency

Department Of Defense → Defense Logistics AgencyView Agency

NAICS

334513 - Instruments and Related Products Manufacturing for Measuring, Displaying, and Controlling Industrial Process Variables View NAICS

Place of Performance

US

Set-Aside

NONE

Documents

(0)

No documents available

AI Contract Breakdown

Uniform Contract Format

No contract breakdown available.

Cannot generate Contract Breakdown because no documents were found from this contract's source.

Timeline

PhaseSolicitation
Posted

Solicitation

Response Deadline

Submission deadline

Response Deadline

Ready to pursue this opportunity?

Start your free trial to track this contract, build proposals with AI assistance, and manage your pipeline.

Organization & Contact Information

Show more
AgencyDepartment Of Defense → Defense Logistics Agency
ContactsNo contacts available
OfficeUS
Organization / Agency
Department Of Defense → Defense Logistics Agency
View Agency Profile
Office AddressUS
ContactsNo contact information available

Full Description

Show more
GAGE, DIFFERENTIAL, D NSN/Part Number: 6685-01-472-6736 Purchase Request: 7017271658QTY: 1

Similar Contracts

NAICS: 334513
New
SBIR / STTR
High-speed Photon-Number-Resolution Quanta Imaging Sensor ArrayThe contract seeks the development of a next-generation Quanta Imaging Sensor array capable of ultra-high-speed photon-number resolution at room temperature, targeting applications in quantum imaging and environmental sensing that demand detection at the quantum limit. Each pixel must count photons at rates exceeding 120 MHz with the ability to resolve at least 16 distinct photon numbers simultaneously, while maintaining an external quantum efficiency of 60% or higher across the 450–550 nm wavelength range, inclusive of fill factor losses. The sensor must operate as a monochromatic array scalable to megapixel dimensions, supporting burst-mode operation at a 120 MHz frame rate during 10 µs bursts repeated every 62.5 µs, resulting in over 1,200 frames per burst cycle. On-chip hardware-level data compression is mandatory, requiring the ability to sum and store up to 500 burst sequences before readout to drastically reduce data bandwidth without losing temporal resolution between frames. The system must handle photon fluxes exceeding 10^16 photons per second across the entire array while maintaining a dark count rate low enough to detect signals as faint as 10^8 photons per second across the array with high fidelity, ensuring reliable performance in extremely low-light conditions. The sensor architecture must support time-of-flight or equivalent depth-ranging capabilities and be compatible with entangled or correlated photon sources, essential for quantum optical measurements on femtosecond to picosecond time scales. Proposed solutions must move beyond cryogenic superconducting nanowire detectors and instead leverage CMOS-compatible technologies such as jots or other low-noise photodetector designs that enable photon-number resolution at room temperature. Current limitations in photon pileup, readout bandwidth, and analog-to-digital conversion must be overcome through novel detection mechanisms or neuromorphic circuit architectures like spiking neural network readout integrated circuits. Proposals must include a detailed analysis of the state-of-the-art commercial detector performance, identify fundamental physical barriers preventing current systems from meeting the required specifications, and present a technically credible path toward exceeding those limits with scalable designs. The operating temperature range is between -40 °C and +45 °C, and the design must be proven scalable to megapixel arrays while meeting all performance metrics under real-world environmental constraints.
Office of the Secretary of Defense

POSTED

2 days ago

DEADLINE

in 19 days
View Details
NAICS: 334513
New
SBIR / STTR
High-speed Photon-Number-Resolution Quanta Imaging Sensor ArrayThe contract seeks the development of a next-generation Quanta Imaging Sensor array capable of true Photon Number Resolution (PNR) at unprecedented speeds, targeting applications in quantum imaging and environmental sensing where light arrives in intense, ultrafast bursts. Each pixel must detect and resolve at least 16 photons simultaneously at a rate exceeding 120 MHz, with an external quantum efficiency of at least 60% across the 450–550 nm wavelength range, including real-world fill factor losses. The sensor must operate reliably between -40 °C and +45 °C, free of cryogenic requirements, and be built using CMOS-compatible processes to ensure scalability and manufacturability. Crucially, the system must handle burst modes of 10 µs duration at up to 16 kHz repetition rates, enabling over 1200 frames per burst while maintaining femtosecond-to-picosecond temporal fidelity required for correlating entangled photons. The architecture must support on-chip hardware-level compression, accumulating and summing up to 500 consecutive burst sequences before readout to drastically reduce data bandwidth without compromising temporal resolution. The sensor must be scalable to megapixel arrays while remaining monochromatic, enabling high-density, large-area detection. It must sustain total photon throughput of at least 10¹⁶ photons per second across the array—achieved through a combination of high per-pixel count rates, PNR capability, and dense pixel packing—while maintaining a dark count rate low enough to capture signals as faint as 10⁸ photons per second with high fidelity. Proposals must analyze current limitations in commercial single-photon detectors, propose novel physical mechanisms or circuit designs—such as advanced neuromorphic readout or ultra-low-noise CMOS architectures—to overcome these barriers, and demonstrate a clear, feasible path toward scalable implementation without reliance on cryogenics or external processing.
Office of the Secretary of Defense

POSTED

2 days ago

DEADLINE

in 19 days
View Details
NAICS: 334513
New
SBIR / STTR
Integrated Multicomponent Module for Quantum SensorsThe Department of Defense seeks to advance quantum sensing through the development of integrated, commercial off-the-shelf components that reduce size, weight, and power while enhancing performance and affordability. The goal is to move beyond custom, discrete hardware by creating modular, interoperable components that can be reused across multiple quantum sensor designs, accelerating deployment and lowering costs. Emphasis is placed on technologies such as photonic integrated circuits, microcells, and solid-state platforms like color centers, silicon nitride, and thin film lithium niobate to enable compact, robust light sources, modulators, and isolators that minimize losses from internal interfaces. By integrating these elements onto a single substrate, the project aims to reduce form factor and improve reliability without sacrificing modularity, which is critical for broad industry adoption and innovation. The initiative is designed not only to serve defense applications but also to stimulate commercial markets by making quantum sensors more accessible to non-traditional vendors in microelectronics and manufacturing. This dual-use strategy encourages participation from small businesses with expertise in semiconductor fabrication and microsystem integration, leveraging existing industrial capabilities to scale quantum-enabled technologies. The solicitation is a total small business set-aside under the SBIR/STTR mandate, focusing on firms under 500 employees, and targets the development of standardized, high-performance components that can serve as foundational building blocks for the broader quantum ecosystem. Success will be measured by the ability of the resulting modules to lower SWaP benchmarks while enabling future standardization of quantum support devices and expanding market reach beyond government use.
Office of the Secretary of Defense

POSTED

2 days ago

DEADLINE

in 19 days
View Details