AccuID™ is a SMT component reel barcode label reader. The system is a bench top unit that can read multiple barcodes in any orientation all in one frame. Base on the user defined prefix of each barcode or a script to parse any 2D barcode label, the system sorts the barcode into entities such as Part Number, Date Code, Lot Code and Quantity. User can also print barcode labels from the application.

The system come with basic function to output entities as a sequence of keystroke into users’ existing applications. For more complicated applications, a user interface is offered to allow maximum flexibility to write to custom data base or to interface with MES and ERP systems.

AccuID™ is perfect for creating unique ID (license plate) label for placement equipment component verificaiton system and incoming label verification to minimize wrong label being applied onto reels of SMT component.

Key Features

• Handle Full Range of Reel Size and Thickness
• Flexible Software Interface

AccuLiFT™ is an automatic reel storage system using the traditional Vertical Lift Module (VLM) design concept to achieve high storage capacity while minimize machine foot print. A person is no longer required to manually feed the reel storage system one at a time or manually load reel pallet one reel at a time. All the users need to do is to stack 30-100 reels onto multiple stacking units and the robotic arm will pick up the reels from the stackers and place them into the storage system. The storage system is designed with a double pallets in/out buffer for loading and unloading so while the robot is working on one pallet, the extractor will store and retrieve parts for the next pallet.

Maximum storage capacity of 8,300 reels of SMT component reels represents the highest density in component storage system today. Automatic barcode reader identifies each reel before it is put away into the system to maintain accurate inventory. Also included are Barcode label applicator on output side and Flexible software for MES integration. Users can drastically reduce component kitting time and still maintain inventory accuracy.

Key Features

• Fully Automatic
• Very High Storage Density with Very Small Foot Print
• Easy Reel Size and Thickness Re-configuration by user
• Reel output sorting built into the system
• Modular Design for easy transportation
• No Calibration Direct Drive System design(patent pending)

The cushions are the main protection placed inside the wafer carriers and absorbing external chocks and internal moves of the wafers stack. They are compatible with 4“, 5“, 6“, 8“ and 12“ wafers, and exist with different thicknesses: 3mm, 5mm and 6mm.

Their multi-layer structure improves their mechanical performances and offers a high purity grade. One thick PE core is covered with PE films on both sides.

The spacers are the interleaves placed in between the wafers for protecting the sides from scratches and particle contamination. They are made with very high pure materials offering extreme performances against the particle contamination and the outgassing risks. All the models have embossed shape and are compatible with 4“, 5“, 6“, 8“ and 12“ wafers and framed-wafers.

Anti Statics PE: 350µm thick, Surface resistivity <1*10E+12 Ω Conductive PE: 250µm thick, Surface resistivity <1*10E+9 Ω

Achilles offers a full range of wafer carriers models depending on the wafer types, all using antistatic and high-purity material, and compatible with packing machines:

– Protos Carrier MA series Improve the shipping efficiency, 25 wafers of capacity. Can be used with spacers or rings. For 4“, 5“, 6“, 8“ and 12“ wafers.

– Protos Carrier ND series Carrier for diced wafers, can contain between 13 and 25 wafers depending on the model. Compatible with 6“, 8“ and 12“ framed wafers.

ADT dicing blades are high-quality cutting tools designed for precise and clean cutting of hard and brittle materials, such as ceramics, glass, and semiconductors. Since it is made of diamond or cubic boron nitride, these blades offer excellent durability and are available in various shapes and sizes to accommodate different cutting applications. ADT dicing Blades provide efficient and reliable cutting performance which is ideal for use in the semiconductor industry and electronic component production.

Key Features

• Designed for cutting hard and brittle materials
• Minimizes chipping and cracking
• Long-lasting performance

ADT dicing peripheral is a precision cutting tool used in semiconductor and electronics manufacturing for precise and efficient dicing of wafers and substrates into smaller chips. It features high accuracy, low kerf loss, and excellent edge quality for optimal yield and reliability.

 

Key Features

• Used for dicing wafers and substrates into smaller chips
• High accuracy and low kerf loss for optimal yield
• Compatible with a wide range of materials and thicknesses
• Robust and durable design for long-term use
• Offers advanced automated blade height adjustment and real-time monitoring.

Our ADT dicing saw is a state-of-the-art saw that is fully programmable and controlled by a microprocessor. It is designed for cutting wafer-thin materials into smaller component pieces, with a specific focus on silicon wafers. However, by using the appropriate configuration and blade type, it is capable of cutting any thin material.

Key Features 

• New User Interface (NUI) Upgrade Kit
• Dicing Floor Management (DFM)
• Height Measurement Tool (HMT)
• Dressing Procedure

Zero defect wave soldering requires consistent solder quality. Contaminants and high oxide levels in bar solder can result in a variety of wave soldering defects such as bridging, projections, and poor wetting. To avoid these issues, AIM’s low drossing solder bar alloys provide a high purity product exceeding IPC, JEDEC and IEC requirements.

AIM Electropure™ bar solder is processed from high-quality, virgin metals in a proprietary method that removes contaminants and reduces dissolved oxides. AIM’s Electropure™ technique results in an extremely pure, low-drossing solder bar that increases throughput and decreases defects.

Key Features

• Low Oxide Content
• Reduces Defects Such as Bridging and Icicling
•  Lower Surface Tension than Competitive Brands
• Available in Extruded, Cast, and Margash Bars
• Produced from High Purity Virgin Metals

AIM’s wide selection of fluxes are available in no clean, water soluble and RMA formulations engineered to provide exceptional soldering performance to fulfill demanding thru-hole and SMT assembly requirements. AIM’s flux products offer a broad range of benefits with proven performance in wave, selective, and rework soldering applications. AIM’s flux products are available for use with tin/lead, lead-free and low temperature solder alloys.

Key Features

• Available in VOC-Free and Alcohol Based
• Lead-Free and Tin/Lead Compatible
• Can Be Brushed, Dispensed, Pin Transferred or Stencil Printed
• For Wave, Selective and Rework Soldering

AIM Solder provides high quality alloys and complimentary materials to the electronics industry. AIM’s variety of solder alloys provide solutions for issues commonly found within the SMT assembly industry. AIM products are produced using AIM’s proprietary ElectropureTM process that produce a low drossing and low oxide alloy. AIM’s solder alloys are engineered to be compatible with a variety of PCB assembly products including solder paste, solder wire, and flux.

Key Features

• Tin-silver-copper alloy in line with JEIDA recommendation
• Gold die-attach alloy
• Standard electronic assembly alloy prior to RoHS

AIM’s complete line of solder paste has been developed to deliver robust performance, ease of use and cost effectiveness. AIM solder pastes resolve difficult issues including QFN voiding, low area ratio printing, and high reliability requirements for consumer, LED, automotive, aerospace and military applications.

AIM solder paste is available in no clean, water soluble, and RMA formulations with a wide variety of alloy offerings including AIM’s proven REL alloys, SAC, SN100C® and lead-based solders. AIM’s alloy and flux combinations provide high quality performance for a wide variety of SMT applications. In addition to SAC based SMT paste, AIM offers low temperature solder paste and jetting solder paste.

Key Features

• Lead-Free and Tin/Lead Compatible
• Halogen- and Halide-Free
• Excellent Wetting
• No Head-in-Pillow
• Low Tombstoning
• Clear Pin-Probe Testable Residue
• Extended Stencil Life and Tack Tim

AIM’s complete line of solid and cored solder wire is available in a wide selection of alloys including AIM’s innovative REL alloys, lead-free and leaded solder alloys. AIM’s cored solder wire is available with no clean, water soluble and rosin flux chemistries. The combination of available alloys and novel flux chemistries offer superior soldering performance across a variety of applications, making AIM the industry’s premier solder wire manufacturer. AIM solder wire is REACH and RoHS compliant and tested to meet or exceed IPC J-STD-006 and J-STD-001 requirements.

AIM’s proprietary production methods ensure a void-free wire and consistent performance. AIM’s hand and robotic solder wires have been engineered for powerful wetting, fast thermal transfer, and high reliability across a wide range of through-hole and SMT applications. AIM solder wire is suitable for all electronic applications including consumer, automotive, LED, military and medical industries.

Key Features

• Solid and Cored Wire Available
• Lead-Free and Tin/Lead Compatible
• Excellent Wetting and Solderability
• Good Thermal Transfer

With an ever-increasing emphasis on accountability, AMADA WELD TECH’s WM-100A is the most advanced resistance welding monitoring system available from any manufacturer. Built in the USA, the WM-100A offers more of the information you need for resistance welding process development, production monitoring and data to support your ISO, and GMP and TQM requirements. Not only will it monitor what happens during the weld, but also before it is triggered, giving you a true 360-degree view of your welding process.

AMADA WELD TECH’s AX5000 Glovebox is a rugged, tight, Windows^® controlled atmospheric enclosure. It provides a safe, easy-to-access, easy-to-use system optimized for hermetic sealing applications as seen in electronic component packaging manufacturing.

Built in the USA, constructed of Type 304 internally polished stainless steel, the AX5000’s sturdy tubular frame provides solid support for automation and motion requirements. The atmospheric enclosure features an easily-removed safety glass window equipped with glove ports that have built-in armrests and butyl gloves. The AX5000 conforms to NASA-STD-3000 ergonomic standards, allowing comfortable use for a broad range of body types.

• Fully computerized operation
• Historical and real time graphical display
• Independent vacuum pumping systems on all ovens and antechambers
• Integrated moisture, oxygen, argon, and helium monitoring
• Configurable modular design

The unit offers consistent welding output for repeatable process results, with ultrafast rise time for conductive material welding. Built in the USA, featuring fully controllable dual pulse output, the CD-A1000A provides pulse shaping with 4 discrete pulse lengths, programmable squeeze and hold times and adjustable pulse separation. Furthermore, the units offer the ability to set limits around a schedule to prevent bad welds and a built-in peak current indicator which indicates the last weld peak current.

The IPB-5000B-MU inverter spot welder delivers superior welding control for a wide range of microjoining applications. When paired with the ITB-780A6 transformer this unit is capable of a maximum output of 6000 Amps, making it ideal for most resistive and conductive welding applications. It operates in constant current, voltage or power feedback modes and is also capable of welding in a combo mode (current and voltage) to address even the most challenging application or process conditions.

Key Features

• Control Modes – Optimum control modes for obtaining ideal weld quality and consistency can be chosen from; constant current control, constant voltage control, combination of constant current and constant voltage control, and constant power control.

• GOOD/NO GOOD determination – The comparator feature allows to set upper and lower limits around the measured value of up to four parameters; which are current, voltage, power and resistance. When those values reach out of the limits, an error signal or a caution signal alarms.

• Diplacement Measurement – Measures how much
an electrode moves down because of material collapse during weld. Weld to displacement – stops welding when displacement value reaches the set value. Requires displacement sensor sold separately.

• Envelope – The envelope feature allows dynamic limits to be set around a monitored waveform to ensure the same resistance change occurs at the same rate for every weld.

Formerly known as IS-300CR. Small enough to fit on a bench, the IS-300CA 300 amp MFDC welder is ideal for customers and integrators who require high output, but have limited production space.

The IS-300CA inverter spot welder offers a range of new and improved features including six control modes (primary limit, primary and secondary root mean square (RMS), secondary constant power, secondary voltage control, and fixed pulse) and .050-20 kA of power in 3 ranges. The low current ranges are ideal for small or fine applications.

• 300 amp primary output
• Built-in current, voltage, power, time and pulse monitor
• Primary short circuit protection
• Triple pulse weld profile: W1, W2, W3, up to 19 pulsations per weld segment
• I/O check screen
• 5-way cascade option using MA-650A
• Pre-weld check process tool
• RS232 or RS485 communications
• Compact design

Key Features

 

• Pulse limit control and Voltage compensation feature enable detailed parameter settings.
• Ground fault and short-circuit protections ensure the safety better.
• Adjustable welding frequency from 600 to 3000kHz with 100Hz increment.
• Program protect feature prevents false operation due to unintended touches to the screen.
• Up to the third welding is controllable. Pulsation and other control modes can be set for each welding.
• The analog output terminal (voltage output proportional to force) for force control with electropneumatic proportional valve and the analog input terminal (voltage input proportional to force) for force measurement have two channels, respectively.(Only IS-800A/1400A-20)
• Welding can be stopped at the set displacement by connecting the displacement gauge and measuring the displacement produced in fusing. (Only IS-800A/1400A-20)

The LF Series fiber lasers offer the precise control needed for small component welding and fine precision cutting of metals. A large touchscreen pendant enables clear visibility of process schedule parameters, and an intuitive interface enables quick and easy programming.

 

• Spot sizes down to 10 microns
• Penetration depth beyond 0.06 in (1.5 mm) in metals
• Fine, high quality cutting of metals
• Excellent power stability
• Simple, intuitive user interface
• Touchscreen

The field proven Alpha Series glovebox systems provide compact and effective platforms for environmental control with excellent price to performance value. The Alpha Series is excellent for both production R&D applications. The glovebox is available in two sizes: one for projection welding applications and the other for seam sealing or general industrial use. Straight-forward controls allow the operator to easily operate oven, vacuum and inert gas backfill controls.

HF2 is a 2kHz, state-of-the-art high frequency inverter welding power supply used to join small parts at high speed. Built in the USA, the HF2 High Frequency Inverter Spot Welder, is a high speed digital adaptive feedback controls weld current, voltage, or power, providing better weld consistency as compared to traditional AC or CD technologies.

HF2 may be used in conjunction with one of our many weld heads as a single operator benchtop unit and is also well-suited for integration into semi or fully automated resistance welding systems.

Key Features

• High Frequency Inverter Welder DC Technology
• High Speed Feedback Control System for Weld Current, Voltage, or Power
• Graphical and Alpha-numeric User Interface
• Input/Output Communication Ports for Automation Integration

The HF-2500A high frequency inverter spot welder addresses the challenges of micro welding for a wide range of applications. Precise control of weld energy with high speed closed loop feedback and weld quality tools ensure high yields for the most demanding welding applications. Built in the USA, the HF-2500A high frequency inverter spot welder may be used in conjunction with one of our many weld heads as a single operator benchtop resistance welder and is also well-suited for integration into semi or fully automated resistance welding systems.

• Constant current, voltage, and power modes
• Monitors energy and resistance
• 2400 A maximum
• 25 kHz feedback
• Active Part Conditioning (APC)
• Pre-Weld Check
• Weld to Limits

Pulsed heat hot bar reflow soldering is a selective soldering process in which two solder plated parts are pressed together and heated to a temperature adequate to cause the solder to melt and flow, after which the parts are cooled to form a permanent electro-mechanical bond.

Pulsed heated soldering differs from traditional soldering because the reflow of solder is accomplished using a heating element called a “thermode” which is quickly heated and then cooled down for each connection resulting in strong joints.

Pressure is applied throughout the entire cycle resulting in precise positioning. It also makes the process suitable for parts that might otherwise disconnect during cool down. Hot bar reflow soldering is also a good choice for applications that require multiple connections to be made simultaneously. Hot bar reflow soldering processes are reproducible, quantifiable, and traceable to quality standards such as ISO / NIST. Hot Bar reflow soldering is safe, highly operator-independent and easy to automate.

ACF/ Heat-Seal Bonding

Heat seal bonding – also called ACF bonding – is the process of creating electrical conductive adhesive bonds between flexible and rigid circuit boards, glass panel displays and flex foils with very fine pitch (<30 micron). The essential characteristics of this process are heating and cooling of the adhesive under pressure.

Heatstaking

Heatstaking is a method of joining two or more parts, where at least one is made out of plastic. The bond is made by partially de-forming the plastic part to fix the other. Heatstaking is the most efficient way to bond metal to plastic, and is commonly used in high volume/low cost applications in the automotive, telecom and appliance industries. The process works by heating the plastic to a temperature above the glass transition temperature via the use of super-heated air or a thermode, and then applying pressure in order to deform it and create the stake. The plastic is then cooled down again – under constant pressure – below the glass transition temperature, ensuring good fixation of the parts. This cooling can be done with compressed air if using a thermode, or with a cold, preformed tool if super-heated air is used.

AMADA WELD TECH offers a full line of reflow soldering power supplies, bonding heads for benchtop use or for integration or automation, thermodes, and both standard and custom systems for reflow soldering, heat seal bonding and heat staking.