"4G market, next year will be a very exciting year." Zhang Weili, general manager of MediaTek China, said recently that according to the plan disclosed by the operators, the price of 4G mobile phones is expected to drop rapidly next year, and the shipment volume will be greatly improved. MediaTek hopes to be in various markets. The interval is exerted, and the advantages of “understanding customer needs†are exerted.
In terms of products, MediaTek will continue to work on 64-bit chips, and will launch VoLTE-enabled chips in the next year, as well as six-mode chips that support telecom 4G demand.
According to Zhang Weili, this year, MediaTek's 4G products were half-time behind, and the mobile phone chips still achieved shipments of 30 million to 40 million sets.
First push the six-mode single chip next year
"In the second half of next year, we will launch a six-mode chip to support the CDMA2000 network." Zhang Weili told reporters that the development of MediaTek's six-mode chip is in line with expectations. "Of course, the market still hopes to put the time to the premise as soon as possible."
Obviously, MediaTek's upcoming six-mode chip, whether for China Telecom or for mobile phone manufacturers in the industrial chain, is a product of great concern, and it is expected to break the current absolute monopoly position of Qualcomm in this field.
At present, China Mobile's requirements for 4G chips are five-mode, that is, it must support five systems such as TD-LTE, FDD-LTE, TD-SCDMA, WCDMA, and GSM, so as to simultaneously satisfy the operations of 2G, 3G, 4G and other networks. Demand and effective international roaming. Since China Unicom operates a WCDMA network in the 3G era, its requirements for 4G chips can be reduced based on this (TD-SCDMA), and only four models are needed, which is relatively more comfortable.
As for China Telecom, because its 3G network is a CDMA2000 system, Qualcomm, the leader of this system, has abandoned the smooth evolution of the 4G version, which makes it necessary to solve the multimode terminal problem of supporting CDMA networks in the 4G era. That is to say, the 4G chip supporting the telecommunication network needs to increase the support for the CDMA2000 network, that is, the six-mode chip, on the basis of the five-module mentioned above.
Due to the monopoly position of Qualcomm in the CDMA market, China Telecom has always faced the problem of richness of the industry chain in terminal supply. In the 3G era, China Telecom carried out new rounds of industrial chain including subsidies and fund establishments, and achieved good results.
At the beginning of 4G, Qualcomm can almost exclusively use it in the six-mode single-chip (SoC) market that supports telecommunications networks. Huawei's Haisi is taking the form curve of the piece, and mainly produces it from home.
Under this circumstance, MediaTek's six-mode single-chip will soon be available, which will allow mobile phone terminals supporting telecom networks to have more choices in chip supply. This is an exciting news for China Telecom and the entire industry chain.
In fact, China Telecom announced in December 2015 that it will invest 16 billion yuan to achieve the "Excellence 100" plan, and strive to build 100 boutique 4G mobile phones next year, driving the overall mobile phone sales breakthrough throughout the year. Billion Taiwan.
According to the "Excellence 100" plan, China Telecom's 16 billion yuan subsidy next year, 12.4 billion yuan for subsidies for fast settlement terminals for agents, 600 million yuan for directly subsidizing mobile phone manufacturers that meet the requirements, 3 billion yuan terminal sales commission As a channel sales incentive resource. In addition, for small and medium-sized agents, China Telecom will also provide 5 billion yuan in small loans next year.
MediaTek seeks to be in the future
Whether in 3G or in the early 4G, MediaTek is often slower than Qualcomm due to factors such as product, technology and patent licensing. However, due to its advantages in cost performance, localization, customer support, etc., MediaTek achieved its success in 3G.
China Mobile has aggressively promoted 4G operations since the second half of last year, but in the early days, the 4G chip market was dominated by Qualcomm and Marvell. “The time required for testing is very long. The biggest challenge is whether it can support the five-mode ten-frequency and thirteen-frequency, and the challenge to the RF part is even greater.†Zhang Weili told reporters.
"We started to test in China Mobile in April this year and began to ship in June. At present, the development is better than expected." Zhang Weili said that MediaTek's 4G mobile phone chip shipments in 2014 are expected to be 30 million to 40 million. Between the sets, the share of the entire market is 20% -30%.
Zhang Weili said that according to the current plan disclosed by the three major operators, the sales of 4G mobile phones in the entire market will reach 250 million units next year. MediaTek has also set its own goals internally. “There is considerable opportunity to achieve thisâ€.
He believes that from the law of normal distribution, the market with the largest volume is at the middle end, and the proportion of high-end and low-end is relatively small. MediaTek will focus on the part of the market with the largest volume, and of course it will be based on this. Seeking continuous breakthroughs in the mid- to high-end market.
Zhang Weili said that MediaTek will continue to exert its strength in the 64-bit and other high-end markets on the basis of maintaining its traditional advantages next year. "Our high-profile 6795 chip has been used in middle and high-end products such as Meizu and has achieved good market performance." .
As for the ultra-low-end market, Zhang Weili said that if there is demand in the market, MediaTek will work with everyone.
In fact, at the recent Global Partner Conference held by China Mobile, another well-known 4G chipmaker Marvell announced that one of the two chips will be a five-mode 4-core 64-bit 4G single-chip that targets the mass market. PXA1908. "We hope to push the price of TD-LTE handsets to 399 yuan," said Dai Weili, president and co-founder of Marvell Group.
“The ultra-low end is not a lot of demand, we don’t want to disrupt the rhythm of the market.†Zhang Weili said, but if the partners really want to cooperate, MediaTek can also meet the demand.
“Customers use our chips and only need a team of less than 10 people to produce mobile phones in a month.†Zhang Weili believes that MediaTek's understanding of customer needs is its greatest advantage.
Battery holders are key components in many types of portable and anchored electrical items - and you`ll find just as many varieties, brands, sizes and types of battery holder available across global markets as there are different sorts of battery.
In this guide, we`ll look more closely at some of the various mounting styles a battery holder might come fitted with, as well as the many different cell sizes they`re designed to work with.
What is a battery holder?
Battery Holders & Mounts
A battery holder is most commonly sold as an integral or removable compartment or cavity, designed to be inserted into - or attached onto - a suitable item of cell-powered equipment.
The primary function of a battery holder is to keep cells fixed in place safely and securely while conveying power from the batteries to the device in question. External connections on battery holders are most often made by contacts either with pins, surface mount feet, soldered lugs or via a set of wire leads.
Battery holders are often designed to be incorporated within the body of an electrical item, but they`re also frequently sold as external compartments or attachments. Either way, some of the most important factors to consider when choosing an appropriate battery holder for a given application will be:
Battery size
Compatible cell types
Contact/terminal style
Battery mounting and insertion method
Unit size and shape
Battery holder cover and housing design
Build quality and manufacturer reputation
Holders and mounts for different battery sizes
Many different battery holder sizes and mounting types are available from manufacturers and suppliers all over the world. Most will be made to work with a particular sort of cell - or sometimes with a range of multiple battery sizes - and to be affixed to the electrical item in question in a specific way.
Bear in mind that, in addition to sorting through the wide variety of battery holder sizes and capacities on the market, you`ll also need to be mindful of the many options available in terms of actual battery chemistry.
While the vast majority of holders and mounts will be able to accommodate most battery chemistry types, each will have its own unique set of pros and cons in terms of performance, power drain, longevity, cost and environmental impact.
Common battery types sold by many suppliers might include:
Alkaline batteries
Lithium batteries
Rechargeable batteries (including li-ion)
Nickel cadmium batteries
Nickel metal hydride batteries
NiZN batteries
The above range of cell types is often available across a broad range of popular battery sizes and shapes, including both AA and AAA versions. Most, but not all, will be interchangeable in a wide range of devices, holders and mounts. However, it`s seldom advisable to combine mixed battery chemistries in a single electronic device.
Doing so can often impede device performance, as the item drawing power will only ever perform to the capabilities of the weakest battery in the holder. Of even greater concern is the fact that more powerful batteries can sometimes force weaker ones to work harder than they`re intended to, causing them to drain to very low voltage levels and possibly leading to potential leaking or rupture.
As such, it`s always wise to ensure you know which cell types you`re likely to be using in advance of making a purchase, as well as the correct sizing you`ll require.
AA Battery Holders & Mounts
An AA size battery holder is one of the more common types of battery storage compartments you`ll see on sale from UK suppliers. AA size (`double-A`), is what most people would typically think of as a `standard` battery, and remains extremely common in all kinds of portable electrical items and equipment.
AA battery pack holders can be manufactured to house any number of cells in theory, but in daily use it`s usually anywhere between 1-10 batteries, with 2-8 being by far the most popular options. AA single battery holders are also common.
Relatively few cell-powered tools or other pieces of electrical equipment will be designed to require more than 8 AA batteries for achieving sufficient power supply. Items that demand a higher power draw than this will usually be built around a larger cell type, for improved practicality and less frequent need for battery replacement or recharging.
AAA Battery Holders and Mounts
Battery holders for AAA cells, commonly referred to as `triple-A` are another very common configuration. AAA batteries are smaller and slimmer than AA versions, with around a third of the storage capacity.
Due to the increasing efficiency of many device types, AAA batteries are often found in more compact pieces of equipment that would typically have been expected to run off double-A cells in years gone by. Today, these will very often include low-drain portable or handheld electronic goods or tools, such as:
Remote controls
Mp3 players, handheld gaming systems and other portable entertainment devices
Digital cameras
Cordless mice or keyboards
Flashlights and other portable lighting units
Clocks and alarms
Kitchen gadgets
AAA battery holders are generally built to accommodate fewer individual cells than bigger units for housing AA and larger capacity batteries, as devices requiring more power will typically not run off triple-A cells.
An AAAA battery holder is a somewhat less common configuration, given that the much smaller than average AAAA (`quadruple-A` or `four-A`) cell standard drains considerably faster than AA or AAA equivalents.
C Battery Holders and Mounts
C size battery holders are designed around the fairly common C battery (sometimes known as an R14). This is a fairly wide diameter cylindrical cell, smaller than D batteries while being the same height - but significantly wider - than AA standard.
C cell batteries, holders and mounts are less widely used than either AA or D versions, particularly since power efficiency is continually improving across most cell-powered devices. However, they can still often be found on a range of medium-drain electronic items, including:
Heavier flashlights and smaller ambient lighting fixtures (e.g. table lamps)
Radios and portable speakers
Toys and games Musical instruments and amplifiers
D Battery Holders and Mounts
D batteries are among the larger types of `everyday use` cells you`ll commonly encounter around the home or workplace. D size batteries tend to be used for higher-drain devices that tend to be used for longer periods at a time, including:
High Power torches and flashlights
Safety systems
Geiger counters
Megaphones, larger musical instruments and more powerful audio devices or speakers
Motorised toys and portable gaming consoles
Products with inbuilt electric motors
Battery holders for D cells are most commonly sold in configurations designed to house either 2 or 4 individual batteries.
12V Battery Holders and Mounts
Battery holders for 12V cells are somewhat less widely available, chiefly because the 12V standard incorporates such a wide range of battery shapes and sizes, although 12V Battery Contacts themselves are more commonly sold as separate components (see Battery holder mounts, below).
The precise sort of 12V battery you might need for specific applications will dictate the appropriate form factor, which can be anything from a large heavy car battery type to one closely resembling a traditional AA cell.
With larger 12V batteries, in particular, it`s less common to need more than one at a time, and they`re generally built more intrinsically into the device or equipment being powered than other types of `snap in/out` batteries designed for frequent and quick replacement. This means that 12V battery holders and mounts aren`t as frequently sold by many UK suppliers as versions for other, more common cell types.
Battery holder mounts
Battery holder mounts usually refer to the way the battery holder itself is slotted, secured or attached onto or into the main body of the item being powered. Note, however, that the term `battery mount` is also used to refer to the method by which individual cells are held in place within the overall holder unit.
Battery holder mounts and battery mounts are usually present as an integral part of a complete holder unit, but you can also buy battery mounts cheaply as swap-out or replacement parts. They can come in many different configurations and designs, with some of the more common types being:
Chassis mount
Panel mount
PCB mount
Slide-in mount (usually refers to the battery insertion method)
Snap-in mount (usually refers to the battery insertion method)
Strap & lead mount (a battery connector, rather than a holder per se)
Surface mount
Through-hole mount
Wire lead mount (refers to connection type)
In this section, we`ll look at some of the most widely used battery mount types in everyday use
Chassis Mount Battery Holders
A chassis mount battery holder denotes one intended to be affixed to a surface plate within the main body of the device being powered, and will usually remain in place while batteries are being swapped. A chassis mount holder is usually attached either via fixing holes in the back of the casing - i.e. a through-hole mount - or via tabs located around the sides of the battery holder.
Chassis mount battery holders can be either metal or plastic, open faced or enclosed (i.e. with or without a cover), and are commonly designed to accept a wide range of cell sizes including AA, AAA, C, D and 9V PP3
Panel Mount Battery Holders
A panel mount battery holder is designed to be slotted into a pre-existing cavity in the side, top or back exterior panel of a device, and removed entirely as a single self-contained unit when it`s time to swap out the batteries. They`re often manufactured such that the cover of the battery holder will sit flush with the device`s panel once inserted
Panel mount battery holders are most commonly secured in place via one of two methods - either via a screw-in system for optimal stability or with a flange for easier removal and reinsertion.
PCB Mount Battery Holders
As the name implies, a PCB mount battery holder is intended for applications where the battery holder needs to be installed directly onto a printed circuit board
The most common design is for the PCB mount holder to include several small sharp pins around its perimeter - these are pushed directly through the surface of the PCB and then soldered on from the rear side
Holders for PCB mounted batteries can be made from metal or plastic. While they`re frequently built to accommodate single coin cells, such as you might find on a typical computer motherboard, they can also be configured to allow for multiple cells and other battery types, including cylindrical AAA, AA, C, or D cells
Slide In Mount Battery Holders
As noted above, a slide-in mount battery holder will generally refer to the way the individual cells are inserted into and removed from the battery holder as a whole.
Slide-in mounts are arguably the most common type of battery connection/terminal setup, requiring the user simply to `drop` the cells into place either lengthways or side-on, at which point they`re either held in place by opposing forces from the two terminals, or secured with a cover or cap
Slide-in battery mounts tend to be among the cheapest and most cost-effective choices to buy in the UK for quickly and simply inserting a cell into an appropriate holder. They work reliably well, and are most often seen in molded plastic or metal battery holders incorporating self-contained battery compartments.
Snap-In Mount Battery Holders
A snap-in mount battery holder (sometimes called snap-on, depending on the manufacturer or supplier) denotes a terminal/contact setup where the cell is held more securely in place.
This is usually achieved using tensioned metal clips, sometimes incorporating springs, through which the battery needs to be pushed with a small amount of force before it clicks into place ready for use. Snap-in battery mounts give the device greater protection against accidental cell power loss during movement, vibration and shock
The term `snap-in` or `snap-on` is also widely used to refer to the standard contact types used on 9V cells (see Strap and lead battery holders, below).
Strap And Lead Battery Holders
Strap and lead battery holders aren`t actually holders per se, but rather a method of directly attaching a freestanding cell to an electronic device or motor without the use of an entire housing unit.
They generally consist of a wire, which is designed to be hooked up to the circuitry of the device via tinned ends, combined with a flat plastic terminal pad that attaches to the contacts of a battery via two press studs
The strap and lead battery holder type is most often used with 9V PP3 cells, allowing the cell to be lifted clear away from the main body of the item for removal, replacement or reattachment.
Surface Mount Battery Holders
A surface mount battery holder is designed to sit flat on any internal or external panel or plate, either around or inside the device being powered, and is generally open-faced.
Holders of this type are most often seen as a mounting solution for coin-type batteries with button terminal contacts, in applications where the cell doesn`t need to be connected directly to a PCB.
Types of battery holders
Once the correct size and mount style of battery holder has been chosen for your intended application and device, it`s also important to be aware of the different physical designs available for various battery holder types. In the section below, we`ll outline some of the more common versions.
Clip battery holders
A battery holder clip is a simple, economical choice for mounting batteries securely within a holder. They tend to consist of two metal arms, arranged in a loop with a small gap at the apex, through which the cells are pushed and subsequently held in place. Clip battery holders tend to be most often associated with common cylindrical batteries such as AA and AAA, but are also sold for securing C, D and 9V PP3 cells into position.
Contact battery holders
Contact battery holders refer to the simple tension-type terminal contact plates and accessories (including coil springs, button, top spring arm and leaf spring contact types) that hold a battery in place while allowing it to deliver power to the device drawing from it.
Again, these are cheap and cost-effective components widely available as separate swap-in or replacement parts that can be used to fit a very wide range of different cell sizes and battery holder types.
Through Hole Surface Mount Battery Holders
A through-hole surface mount battery holder is a common variation on the type outlined above, except it`s affixed to the surface of the device in question via a hole in the housing rather than via tabs around the perimeter. This makes the through-hole version better suited to applications where space is at a premium.
Wire Lead Mount Battery Holders
Wire lead mount battery holders denote a particular type of external connection between the battery holder itself and the circuitry of the device being powered. A wire lead mount battery holder will be supplied with two leads attached to the holder at one end, with the other ends free to be hooked into the circuitry of the device as the holder is attached.
This can offer greater flexibility in terms of battery holder mounting locations than certain pin or foot connection types, which must make immediate contact with the circuit wherever the holder is positioned.
Battery Holders
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