Company: TTMI
Filing Date: 2025-02-21
Form Type: 10-K
Source: 0000950170-25-024839
Chunk: 28

Company: TTM TECHNOLOGIES INC
Filing Date: 2025-02-21
Form: 10-K
Item: Item 1
Chunk 28
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 staff to ensure the highest possible performance and manufacturability. These capabilities are aimed at high-performance applications in the medical, industrial, and defense markets.

Hi-Reliability Multi-Chip Modules

We offer custom hybrid and multi-chip modules, high-performance radiation-hardened and space-qualified microelectronics, and power management and control electronics utilizing traditional chip and wire 2D construction as well as 2.5/3DHI advanced packaging assembly.

Beamforming and Switching Networks

Our beamforming technologies are used in military and aerospace applications, offering a variety of active and passive high‑performance RF assemblies, including L-band/LEO and L- and S-band/GEO space beamformers, UHF thru Ka-band radar AESA RF networks, Butler matrices, multi-octave, and more.

Custom Designed Application Specific Integrated Circuits (ASICs)

Our Custom Integrated Circuits (CIC) group has designed nearly 400 mixed-signal custom ASICs for customers in the automotive, industrial, defense/avionics, and smart energy markets. The CIC organization works with our customers' technical teams, taking complete responsibility for the ASIC development process, from the initial ASIC specification definition through qualification and volume production, to meet the most stringent customer program requirements.

Conventional PCBs

A conventional PCB is made from a composite laminate that is metalized with a conductive material such as copper. The PCB is the basic platform used to interconnect components in most electronic products including computers, networking and communications equipment, high-end consumer electronics, automotive controls, commercial aerospace and defense systems, and medical and industrial equipment. Conventional PCBs can be classified as single-sided, double-sided, and multilayer boards.

We focus on higher layer count conventional PCBs. A multilayer PCB can accommodate more complex circuitry than a single‑sided or double-sided PCB and as such, requires more sophisticated production techniques. The number of layers comprising a PCB often increases with the complexity of the end product. For example, a simple consumer device such as a garage door controller may use a single-sided or double-sided PCB, while a high-end network router or computer server may use a PCB with 30 or more layers.

High-density interconnect or HDI PCBs

Our facilities in North America and Asia also produce HDI PCBs, which are PCBs with higher interconnect density per unit area requiring more sophisticated technology and manufacturing processes for their production than conventional PCB products. HDI PCBs are boards with high-density characteristics including micro-sized