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Comparison iPega PG-9068 vs iPega PG-9017

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iPega PG-9068
iPega PG-9017
iPega PG-9068iPega PG-9017
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Product typegamepadgamepad
Platform
PC (Windows)
Android
iOS
PC (Windows)
Android
iOS
InterfaceBluetoothBluetooth
Technical specs
Number of buttons149
Feedbackis absentis absent
D-pad4 position4 position
Sticks
2
asymmetrical
2
both from below
Bumpers22
Triggers
2
 
General
Phone mountbuilt-inbuilt-in
Materialplasticsoft touch plastic
Power source
battery /330 mAh/
battery /500 mAh/
Operating time20 h20 h
Charging portmicroUSB
Weight84 g
Color
Added to E-Catalogmay 2018may 2018

Number of buttons

The total number of buttons provided in the design of the manipulator.

The more buttons — the more additional features you can "tie" to the manipulator, the lower the likelihood that during the game you will have to turn to other controls (for example, a PC keyboard). However, many game consoles (see "Platform Compatibility") provide a certain minimum number of buttons for a compatible gamepad — a smaller number simply would not allow full use of all the functions of the console. For example, the original PlayStation 4 controller has 11 buttons.

Note that the D-Pad (see below) is not included in this calculation: it is considered a specific control, although it is based on buttons.

Sticks

The number and location of analogue sticks provided in the design of the manipulator.

The analogue lever can be described as a "miniature joystick" — it is a protruding lever that can be deflected in any direction. Its purpose is generally similar to the D-Pad (see above), but the stick does not have fixed positions; this provides more "fine" control, which is very important in modern games. In addition, tilting it is often more convenient than pressing the D-Pad.

Separately, it is worth mentioning sticks on Hall sensors. The design of such levers is more reliable due to the absence of rubbing and contacting parts, and the position of the stick is determined by changes in the fluctuations of the magnetic field, which are monitored by appropriate sensors. Sticks on Hall sensors do not have “dead zones”, are devoid of the drift effect (misalignment), and wear out an order of magnitude slower. However, such solutions are not cheap.

This feature is most widely used in gamepads (see "Device type") — most of these controllers have at least one lever, models without sticks are already considered rare. In addition, such equipment, by definition, is installed in all arcade controllers; and analogue levers are also found in virtual reality weapons and motion controllers — it is very convenient to control the movement of the character through them.
...r> As for the location, it is indicated mainly for traditional design gamepads with a full set of controls, including 2 sticks. The most common options here are the left lever on top, the right one on the bottom ( like Xbox) or both levers on the bottom (like PlayStation). Much less common are devices where both analogue sticks are installed on top — this is, in particular, a regular gamepad for Wii U, as well as many models for mobile gadgets. And in some manipulators, a customizable (adjustable) arrangement of levers is provided: usually, the right stick in such models is fixed, and the left one can be installed from above or below, changing the format of the gamepad to suit your preferences.

Triggers

Auxiliary controls located on the top of the gamepad on the back of the case. Triggers are pressed using the player's index or middle finger.

Classic gamepads and joysticks have triggers. used to control various actions in games (for example, accelerating a car in racing, shooting in shooters, etc.). Moreover, in some models it is possible to press the trigger halfway for conditional aiming in the game or fully to fire at opponents. Also, such buttons can have a feedback function via vibration. The vast majority of triggers are based on potentiometers (variable resistors), less often on Hall sensors, which monitor changes in magnetic field fluctuations and do not have rubbing parts in their design (but are also more expensive).

Triggers are arranged somewhat differently in overhead gamepads for smartphones (see “Type”). Often, such controls are equipped with trigger-type mechanisms and moving contacts that are sensitive to the touch layer of the screen, which touch a certain area of the display when the triggers are pressed. Depending on the layout in the game, different control functions are supposed to be assigned to the triggers (shooting, aiming, squatting or jumping, etc.).

Material

The main material(s) used in the design of the manipulator.

Usually, both the body of the device and the control elements — buttons, levers, joystick handle, etc. are made from the material specified in this paragraph. steering wheel ”(see above), the type of coverage is often specified.

Here are the main materials relevant for today:

— Plastic. It is used in the vast majority of modern game controllers — from low-cost to high-end; at the same time, even in inexpensive devices, sufficiently high-quality grades of plastic can be used. In general, this material combines low cost, practicality and ease of design: plastic elements can easily be given complex shapes, as well as any shades and patterns. Of the shortcomings of this option, one can only note a certain tendency to scratches; however, this is a purely aesthetic moment, having almost no practical significance.

— Rubber cover. An additional coating commonly used on plastic devices. Rubber is soft and flexible, and less slippery than a smooth plastic surface. This provides a more comfortable and secure hold in the hands. In addition, scratches are less noticeable on such material. The reverse side of these advantages is a slight increase in the cost and dimensions of the controller (the latter, however, can be compensated by reducing the size of the plastic base).

— Soft touch. A special kind of plastic, a kind of transitional option between traditional smooth pl...astic and rubber. The surface of this material has a special texture, due to which it feels soft to the touch (hence the name), besides, it practically does not slip in the hands. However for a number of reasons, such material has not received much popularity in game controllers.

— Rubberized plastic, rubberized coating. These terms may mean different materials in different models: in some cases it is plastic with a full-fledged rubber coating, in others it is a soft-touch surface. For more on both, see above; and what exactly is at stake — it is worth specifying separately.

— Rubber. The word "rubber" in this case, it is customary to denote individual elements made of this material — primarily buttons and additional inserts. Such elements are usually combined with a body base made of plastic (see above). And rubber is used for additional convenience: fingers do not slip off such buttons as much as with plastic ones, while inserts prevent the controller itself from slipping in your hand.

— Metal. In the case of game controllers, metal is a premium material: it is durable, looks solid, but it is not cheap. And in some types of manipulators — for example, gamepads (see "Device type") — the use of this material is not justified from a practical point of view. As a result, metal is mainly used for individual high-end rudders, joysticks / helms and aircraft instruments, designed both for functionality and for realism in appearance and user experience. At the same time, even if only metal is indicated in the characteristics, the design, usually, still includes individual elements from other materials: for example, the pad on the joystick lever can be made of rubber or plastic, for additional comfort and reliability.

— Aluminium. One of the types of metal described above — with all the characteristic features. Aluminium is often perceived as an advanced and expensive material (in particular, it is widely used in aviation); therefore, sometimes in the characteristics this name is specified for advertising purposes.

Charging port

The presence of a standard connector for charging.

- microUSB. One of the miniature versions of the USB connector, which is still popular in gadgets, despite the appearance of a more advanced USB-C. It has relatively modest capabilities (in particular, it is inferior to USB-C in terms of the maximum possible charging power), but this moment is rarely critical. At the same time, there are a great many cables and chargers for microUSB.

- USB-C. A relatively new type of USB connector, actively gaining momentum. Like microUSB, it is small in size, but has a more convenient reversible design and advanced features, such as the ability to transmit higher power, which has a beneficial effect on charging time.
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