connector). The X-connector here provides 3.5 and 2.5 mm
phone plugs and two sizes of coaxial power connector External power adapters can fail, or can become separated from the product they are intended to power. Consequently, there is a market for replacement adapters. The replacement must match input and output voltages, match or exceed current capability, and be fitted with a matching connector. Many electrical products are poorly labeled with information concerning the power supply they require, so it is prudent to record the specifications of the original power supply in advance, to ease replacement if the original is later lost. Careful labeling of power adapters can also reduce the likelihood of a mixup which could cause equipment damage. Some "universal" replacement power supplies allow output voltage and polarity to be switched to match a range of equipment. With the advent of switch-mode supplies, adapters which can work with any voltage from 110 VAC to 240 VAC became widely available; previously either 100–120 VAC or 200–240 VAC versions were used. Adapters which can also be used with motor vehicle and aircraft power
(see EmPower) are available. Four-way
X connectors or six-way
star connectors, also known as
spider connectors, with multiple plug sizes and types are common on generic power supplies. Other replacement power supplies have arrangements for changing the power connector, with four to nine different alternatives available when purchased in a set. This allows many different configurations of AC adapters to be put together, without requiring soldering. Philmore and other competing brands offer similar AC adapters with interchangeable connectors. The label on a power supply may not be a reliable guide to the actual voltage it supplies under varying conditions. Many low-cost power supplies are "
unregulated", in that their voltage can change considerably with load. If they are lightly loaded, they may put out much more than the nominal "name plate" voltage, which could damage the load. If they are heavily loaded, the output voltage may
droop appreciably, in some cases well below the nominal label voltage even within the nominal rated current, causing the equipment being supplied to malfunction or be damaged. Supplies with linear (as against switched) regulators are heavy, bulky, and expensive. Modern
switched-mode power supplies (SMPSs) are smaller, lighter, and more efficient. They put out a much more constant voltage than unregulated supplies as the input voltage and the load current vary. When introduced, their prices were high, but by the early 21st century the prices of switch-mode components had dropped to a degree which allowed even cheap supplies to use this technology, saving the cost of a larger and heavier mains-frequency transformer.
Auto-sensing adapters Some universal adapters automatically set their output voltage and maximum current according to which of a range of interchangeable tips is fitted; tips are available to fit and supply appropriate power to many notebook computers and mobile devices. Different tips may use the same connector, but automatically supply different power; it is essential to use the right tip for the apparatus being powered, but no switch needs to be set correctly by the user. The advent of switch-mode power supplies has allowed adapters to work from any AC mains supply from 100 to 240 V with an appropriate plug; operation from standard 12 V DC vehicle and aircraft supplies can also be supported. With the appropriate adapter, accessories, and tips, a variety of equipment can be powered from almost any source of power.
Battery eliminator A battery eliminator is an adapter intended to allow a device intended for battery operation, such as a radio, to be operated from an AC outlet. All radios, except
crystal sets, used inconvenient and messy
vacuum tube batteries until the mid- to late-1920s. Battery eliminators that plugged into
light sockets became very popular. Early commercial units were produced by the
Edward S. Rogers, Sr. company in 1925 as a complement to its line of
batteryless radios. Another early producer of battery eliminators was the Galvin Manufacturing Corporation (later known as
Motorola), which was opened on September 25, 1928, by
Paul Galvin and his brother Joseph E. Galvin. Eliminators became obsolete for radios after
RCA introduced
AC tubes in 1927, enabling receivers to plug into
household power. The industry rapidly adopted AC tubes, and companies which launched exclusively manufacture that product such as
Philco had to quickly pivot to radio manufacturing to remain relevant and existent.
Laptop charger In early
laptop computers, the
power supply units were internal like in
desktop computers. To facilitate portability by sparing physical space and reducing the weight, power supply units were externalized. When a laptop computer is operated while recharging, the
integrated circuitry which controls the charging makes use of a power supply unit's remaining
electrical current capacity. This allows supplying the device's components with power during usage while maintaining an uncompromised constant charging speed. ==Use of USB==