Wednesday, November 6, 2013

Influences of Belt Furnace on Post Mold Cure Process

Please contact song@torreyhillstech.com for any question on belt furnace.

Introduction

      Post mold cure (PMC) is one of the most significant processes in electrical industry. This process exposes part of a mold to elevated temperatures in order to speed up the curing process and to optimize some physical properties of the material.
      The PMC process will expedite the cross-linking process and properly align the polymer's molecules to make a stronger part with better high temperature characteristics. Much like tempering steel, post curing thermosetting can improve physical properties above what the material would normally achieve at room temperature, such as tensile strength, flexural strength, and can modify the temperature of heat distortion. Moreover, post mold cure process is the most common strategy used today for warpage problem solution. Finally, it can also deal with the outgassing phenomenon during IC package.
      Given the benefits of PMC processing, it is widely used in the electrical device industry. It is easy to find the application of PMC in many facilities and there are a large number of companies using PMC on their products. Figure 1 shows various chips that have been packaged using PMC processes.


Fig.1 Products of PMC

PMC Process in IC Encapsulation

      There are two major manufacturing steps in IC encapsulation industry. For the first step, the IC chip would be encapsulated into a thermosetting epoxy mold compound (EMC), which is the most common plastic material for IC package manufacture today. This pelletized compound is injected into a hot mold die to form the body around the IC die. And after the plastic injection, the mold is cured. The object of this step is to achieve good fill and partial cure of the mold.
  The second step of the process is the post mold cure (PMC) process. The goal of this step is to increase degree of cure and reduce warpage in an IC chip. In order to optimize properties, the PMC process provides a critical completion of the cure process to complete the chemical cross-linking of the material. During PMC, the material experiences additional molecular rearrangement and greater efficiency of molecular collisions resulting in a greater degree of cross linking. The heating can also cause any residual peroxide to break apart and initiate some additional chains.
  Generally, a PMC heating process can be divided into three heating stages, assuming that heating process in the furnace is uniform. In the first stage, products are heated from room temperature 25 oC to post mold cure temperature 175 oC in a short time. In the second stage, the temperature is held constant for several hours. In the final stage, the product is cooled from 175 oC to room temperature in a short interval.

Applications of PMC

      Post mold cure has been applied by many electronics companies, especially semiconductor designers and manufacturers. Table 1 shows various products that have benefited from PMC to achieve better performance as well as some companies associated with them. From the table, it is easy to see PMC technique is widely used in electronic market by a wide range of corporations. If your company requires better device performance, PMC processing is an easy choice.

Table1. Some products and companies using PMC process
Products
Companies
IC
Intel; Samsung; Toshiba; SK Hynix; IBM; Sony; AMD; Freescale; Marvell; Nvidia; Qualcomm; Anadigics; Cree; Infineon; ST’s; Microsemi; Silicon Labs; TI; Vishay; IR; NXP; Intersil; Amkor; Spansion; Renesas;
Packaging
ASE; Intel; TSMC; Microsemi; SPIL; QuickLogic; SMIC; UMC; Globalfoundries; Amkor; UTAC;
RF
power amplifier
Skyworks; TI; TriQuint; RFMD;  Cree; Anadigics; Maxim Integrated; Infineon; NXP; ST’s; Avago; Semtech; ADI; Linear; Macom; Freescale; Microsemi; ONsemi; Lattice;
Memory
Samsung; Elpida; ISSI; Micron; Maxim; Integrated; Microsemi; SK hynix; NEC; Panasonic; Toshiba; SPIL; OSE; Spansion; Winbond;  
FPGA
Xilinx; Altera; Atmel; Microsemi; Lattice; QuickLogic; Actel; Vantls; Cypress;
ASIC
LSI Logic; Toshiba;
Attenuators
Skyworks; TriQuint; RFMD; Avago; Peregrine; Analog;
RF passive
Skyworks; TriQuint; RFMD; PPI; Macom; Microsemi; ONsemi; RCD;
Transistor
TriQuint; NXP; ST’s; Avago; ONsemi;
Diodes
Skyworks; NXP; ST’s; Avago; Macom; Microsemi; Vishay; ONsemi;
Mixers/
multipliers
Skyworks; TriQuint; RFMD;NXP; Avago; ADI; Linear; Peregrine; TI; Vishay; Analog;
Filters
Skyworks; TriQuint; Avago; Macom; TI; ONsemi;
Modulator/
demodulator
Skyworks; TriQuint; RFMD; NXP; ST’s; Micron; Avago; Linear; Microsemi; Analog;
Switches
Skyworks; RFMD; Infineon;  NXP; Maxim Integrated; ST’s; Avago;  ADI; Macom; Peregrine; Microsemi; TI; Vishay; ONsemi; Analog;
Die/wafer
TSMC; TI; Fairchild; Vishay; IR; Cypress; SPIL; SMIC; Amkor;

Influences of PMC on Material Properties

      It is the epoxy molding compound (EMC) that determines the properties resulting from PMC process. Epoxy is the vital part of EMC. It will directly affect the flow characteristics of EMC as well as impact the EMC thermal performances and electrical characteristics. Table 2 shows some commonly used epoxy resins and their characteristics.

Table 2. Some epoxy resins and their characteristics
Epoxy resin
Characteristics
O-cresol-type epoxy resin
High thermal stability and chemical stability
Bisphenol A type epoxy resin
Low shrinkage and low-volatile component
Multi-functional-type epoxy resin
Excellent thermal stability, fast curing and high Tg
Biphenyl-type epoxy resin
Low viscosity, high filling
Tea-type epoxy resin
High Tg, high-heat-resistant
Modified epoxy resin
Good flexibility

     A PMC process involves placing the molded articles in a forced-air furnace and thermally treating them to a series of increasing temperatures for various times. The program of times and temperatures is referred to as the cure schedule or cure cycle. During the PMC process, the molecular weight of the polymer increases by chain extension. And as the molecular weight increases virtually all mechanical, chemical, and thermal properties are changed. Figure 2 illustrates how physical properties change during a PMC process. After PMC, the physical properties of objects are substantially increased.

 

Fig.2 Physical properties changes of cure circle: (a) Tensile strength; (b) Flexural strength; (c) Heat deflection Temperature; (d) Shrinkage; The specimens are Torlon 4203L, 3 mm (1/8 inch) thick.

      PMC can prevent problems such as warpage during encapsulation in chip packages. In IC encapsulation, one of a prevalent and troublesome EMC defect is warpage. Fortunately, PMC is an efficient method to alleviate the warpage problem during encapsulation. PMC is also one of the principal tools to mitigate outgassing. PMC can remove the volatiles from the cross-linked plastic material. If the volatiles are not removed and the EMC is exposed to elevated temperatures with poor ventilation, one will observe deteriorations in strength, elongation, compression set properties accompanied by chemical decomposition. Insufficient or poor PMC can result in “smoke”, bubbling, delamination and unsightly sticky surface deposits.
       To achieve a satisfactory PMC process, the furnace must be tuned to optimize the cure process, which can only be achieved through high quality temperature control.

Furnace Selection of PMC

      Selecting a suitable furnace requires knowledge of the temperature, time and atmospheric conditions of the process. Basically, PMC furnaces can be divided into batch furnaces and continuous furnaces. Batch furnaces are suitable for any part size but limited with respect to production volume. As batch furnaces use the same door to load and unload the part, these furnaces can only produce one batch at a time. A continuous furnace uses a conveyor-belt to continuously move parts through the furnace. So it is suitable for high volume production. Figure 3 shows a Hengli continuous belt furnace.


      Furnace technology, economics and part quality influence the decision of using a continuous or a batch operation. The economics questions center around cost of ownership, which can include initial cost, operating costs, repair costs, product yields and return on investment. Quality issues often are associated with process stability, quality and consistency, while technology focuses on ease of operation, process definition, thermal cycles, temperature requirements, atmosphere conditions, weight of product and desired throughput. Issues and their relative importance depend on different situations.
      Most producers are still using batch furnaces for PMC process today, but as many studies and discussions have pointed out, it is better to use continuous furnaces for PMC process if one wants to get a steady flow of incoming parts.  This is because continuous furnaces are extremely versatile and can be employed to perform a multitude of processes. They are an excellent choice for manufacturing medium and high volume products. There are a great number of advantages of converting the batch process to continuous, such as:
      1) Superior art to part temperature uniformity;
      2) Increased throughput;
      3) Process combination;
      4) Lower up-front investment;
      5) Reduced changeover times;
      6) Part loading flexibility.
      A continuous furnace is ideal for processes requiring high production volumes, process consistency, and precision control. All components can go through the furnace smoothly. And during the furnace process, as the continuous furnace can serve consistent heating process, the consistency of products could be ensured in a high level. The defects will also be effectively prevented and eliminated. Furthermore, a continuous furnace can greatly improve the production efficiency by being continuously available, rather than intermittently (as is the case for the batch furnace, which must heat up and cool down). In addition, a good continuous furnace is often much more compact than a batch furnace, which is beneficial for floor space considerations and facility costs. Moreover, a continuous furnace is easily used for automation offers.
      When choosing continuous furnace, the air convection heating function should be considered, too. Unlike the traditional furnace using radiative heating, a hot air convection furnace can elevate the temperature through convective heating, which offers an extreme uniformity to PMC process. Figure 4 illustrates the difference between traditional radiative heating and convective heating. More important, the hot air convection furnace can get higher energy efficiency than conventional ovens. Additionally, with no noise and pollution operation, a convection furnace is environmental friendly.


Figure 4. Radiative heating process and convective heating process

Furnace Control of PMC

      For most PMC process, the longer cure profiles require longer furnaces. These furnaces are more suitable for the inline, integrated manufacturing line used by many printed circuit board assemblers. The PMC process needs specific control of temperature and time, which is critical for getting excellent performance after PMC process. If the temperature of furnace during PMC is higher than the setting point, components are likely to be damaged, which will cause production failures. And if the furnace temperature cannot reach the required point, the post curing would be insufficient which will lead to a great reduction of PMC quality. Consequently, it is vital for furnace temperature control to achieve high quality PMC performance.
      As the PMC process is sensitive to the temperature, uniform furnace temperatures are essential for the PMC process. For most cases, 5.6°C (10°F) is the greatest temperature difference between the hottest and coldest point in an oven that can be tolerated. Generally, a hot point occurs near the air intake while a cold point near the exhaust vent.
      Controllers programmed to raise the temperature by 0.3°C (0.5°F) per minute are recommended. Automatic shut-off and manual reset features are also desirable. A good oven is supposed to cut off automatically when the temperature reaches 2.8°C (5°F) above the set point. This is required to avoid distortion of the parts which can occur if the temperature exceeds the deflection temperature of the part.

Belt Furnace for PMC

      The HSF series hot air convection furnace is an efficient belt furnace designed and used for post mold cure process. This furnace can make temperature to 400°C. It can heat by infra-red and/or hot air circulation heating depending on your process parameters and requirements and the temperature  profiles  are  able  to  run  at  the  desired  heating  rate  to  meet  the  required PMC temperatures under controlled atmosphere.  Its air or nitrogen atmosphere can serve a completed curing process. Temperature control zones offer precise control allowing the furnace  to  run  at  the  proper  heating  rate  to  meet  the  needs  for curing. The HSF series belt furnace can offer uniform temperature distribution to meet the qualifications of PMC process. Its conveyor system allows proper heating across the belt with little temperature variations. And the HSF series furnace comes with an ultra-clean heating chamber, which can give rapid thermal response. Figure 5 shows a HSF series furnace.



      The furnace is long enough to handle PMC process. To  ensure  proper  practice  for  continued  use, technical information and training will be given upon  installation  of  the  furnace. A microprocessor based PID controller provides appropriate system control. Type K thermocouples are used in determining the zone temperatures. The central processing unit (CPU) is located at the entrance table and is available with a Windows operating system for ease of use and the program is installed ready to control furnace parameters such as belt speed, zone temperatures, and atmospheric conditions. Temperature profiles can be stored and retrieved as well for future purposes. There are programs for capturing/storing, displaying, and printing out the furnace profile which is already included in the software. Additionally, the furnace is equipped with a redundant overheat safety protection system which incorporates an additional type “K” thermocouple in the center of each controlled zone and the multi-loop alarm.

Conclusion


      PMC is an important technology for electrical industry. It can highly improve the properties of chips and is widely used by a great number of companies. A large number of electronic products and companies have used PMC for better performance. The quality of PMC process is deeply influenced by the temperature and time, which are strongly influenced by the furnace. A good continuous belt furnace with precise control and convective heating will offer great conditions for PMC process. 

For more information, please check http://www.beltfurnaces.com/index.html

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jade said...

In all these cases the microwave wins because you only have to add a little bit of water whereas when cooking in a saucepan you have to use enough to cover the food. High Temperature Ovens

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Wooden Windows said...

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