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Our Pure Nickel Strip has been the premier material for battery connections for decades. The high purity of our custom-made material offers the highest conductivity of commercially manufactured nickel products due to the low impurity level. Battery Contacts for Implantable Medical Devices Patients worldwide rely on batteries to improve and maintain quality of life. Our pure nickel strip materials are used to power implantable devices such as neurostimulators, pacemakers, and cardiac defibrillators. Aerospace Battery Connectors Nickel strip engineered for high-tech aircraft battery systems that deliver long life and high reliability. Our materials are critical to safety, providing peak power for engine and emergency power backup. Rechargeable Battery Components in Drilling applications Nickel 201/270 strip for rechargeable battery components used in oilfield downhole tools, drilling, measurement

Cardiac rhythm management (CRM) means artificially controlling and monitoring the heartbeat. This is usually done through small battery-powered devices that are implanted into the human body and connected to the heart. The two most common devices that manage the heart rhythm are pacemakers and cardioverter defibrillators (ICD).

AMETEK Engineered Medical manufactures advanced technology sensor components for different types of continuous glucose monitoring devices for its customers.

The ablation of fine wires by laser technology is a precise technique that involves the controlled removal of material from conductive wires, enabling numerous applications across various industries.

The DENSYTY® Interconnect System uses proven card edge technology to maximize contact density, performance and usability. The need for high contact density in a small form factor is increasing.

An in-house dedicated testing lab offers electrical, mechanical, and environmental test services to help customers characterize, verify, and validate requirements of components and assemblies.

As a leading partner in the medical device market, AMETEK Engineered Medical Components (EMC) supplies customers in the electrosurgical instrument sector with critical, customized interconnect and cable solutions as well as precision laser-processed assemblies. This includes ENT (ear, nose, throat) and reconstructive surgery products

Lasers that emit light in a series of pulses of duration (τ) at a repetition rate (R) with peak power Ppeak. Mostly used to achieve high peak powers and/or retrieve temporal information. Find: - Diode & Semiconductor Lasers - Optically-Pumped Solid State Lasers - Fiber Lasers - Dye Lasers - Special Laser Systems - Frequency-Converted & OPO Lasers - Gas Lasers For industrial, research, biomedical, material processing applications. Pulsed Lasers from TRUMPF, Monocrom, PicoQuant, Amplitude, Thorlabs, Frankfurt Laser Company, Optogama, Edmund Optics, Menlo Systems, TOPTICA, Hamamatsu, Optogama, Litilit, Radiant Dyes, Stuttgart Instruments, APE and more.

AMETEK EMC has been a leading manufacturing partner for vascular devices for decades. In addition to engineering and manufacturing advanced vascular device components, we also help to improve existing medical devices in a wide variety of vascular projects.

AMETEK EMC can provide packaging solutions for every need, with capabilities for applications such as: sealed pouches, anti-static bags, custom boxes, multi-material packaging, shock and vibration sensitive packaging, target component protection, and packaging for sterilization.

Precision Laser Ablation of Coils

Laserage is widely regarded as the medical industry-leading expert in laser contract manufacturing. Since 1979, we have been leading the way in the field of custom laser processing, providing medical device component fabrication with numerous laser manufacturing capabilities.

AMETEK EMC offers technical expertise and precision engineering to support customers in the development and manufacture of the most demanding applications.

AMETEK EMC has been meeting the emerging demand for minimally invasive structural heart procedures and critical cardiac components for several decades. Precision Nitinol components and welded assemblies along with complex delivery systems are some of the key products that AMETEK EMC manufactures for the structural heart market.

Nitinol laser processing involves the utilization of ultrafast femtosecond laser systems. These laser systems emits ultra-short pulses in the femtosecond range which is one quadrillionth of a second (10^-15 seconds). This technology enables the laser cutting of Nitinol devices, reducing the need for extensive post-processing.

Stent manufacturing applies to a wide variety of medical applications including cardiovascular applications, birth control, kidney stone pain control and esophageal and gastrointestinal uses.

Silicone Molding Liquid Silicone Rubber (LSR) and Silicone Transfer Molding (STM) are widely used in the medical device industry for the production of various medical device components such as catheters, tubing, connectors and handles or grips. The process of LSR molding involves injecting liquid silicone rubber into a mold cavity, often over electrical connections or a circuit board. It is then allowed to cure or solidify into the desired shape.

TSE leverages a broad base of interconnect technology capabilities to help customers design, develop, test, and manufacture innovative custom connectors and assemblies.

Laser Micro-Welded Sub-Assemblies

There are multiple advantages that LSR offers over plastic injection molding to the medical device industry and in patient care.

Laserage can precisely cut, drill, weld, scribe, and heat treat a wide variety of materials to meet any and all specification.

Tubes, sheets, and CNC-machined components can be laser-cut components. With laser beam sizes ranging from 20 to 300 microns, AMETEK EMC has the expertise to precisely create stents, frames, flex-shafts and instruments as well as cutting complex geometries with close feature-to-feature positioning, such as small holes or narrow slot arrays. Material thicknesses from 0.05mm to 4mm and tube diameters from 0.3mm to 100mm can be laser-cut with high precision and repeatability.

Laser Marked Cables

METEK EMC provides creative supply chain solutions and streamlined supply management to meet the most challenging requirements.

Precision Laser Ablated Lead Bodies

AMETEK EMC are experts at connector and cable assembly including design, material selection, manufacturing processes, project management, product validation, and regulatory compliance.

Nitinol laser processing, involving the use of lasers for cutting, welding, or shaping Nitinol alloy, offers several advantages, especially in the medical device industry.

Polymer catheter shafts and components, as well as insulated wire and cable, can be precisely machined through non-contact laser ablation.

AMETEK EMC has combined a Laser Swiss turning machine with a complete precision laser cutting system. We’ve dreamt of this possibility for years and now it’s here! Implement your design ideas, reduce your manufacturing constraints, and increase productivity!

The DENSYTY™ interconnect system uses proven card edge technology to maximize contact density, performance and usability. The need for high contact density in a small form factor is increasing. New innovative medical devices that require high performance interconnects are being developed every day.