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Comparison ART Z4000 vs ART Z3000

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ART Z4000
ART Z3000
ART Z4000ART Z3000
Outdated ProductOutdated Product
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Main functionuniversaluniversal
Lamp and image
Lamp typeLEDLED
Service life50000 h50000 h
Brightness2800 lm2800 lm
Static contrast1 500:11 500:1
Projection system
Technology3LCDLCD
Real resolution1280x800 px1280x800 px
Image format support16:9, 4:316:9, 4:3
Projecting
Throw distance, min1.85 m1.85 m
Throw distance, max4.58 m4.58 m
Image size50 – 140 "50 – 140 "
Zoom and focusmanualmanual
Hardware
USB 2.02
Video connectors
VGA
composite
component
VGA
composite
component
HDMI inputs2
HDMI versionv 1.4
Audio connectors
 
RCA (audio)
General
Power sourcemainsmains
Size (HxWxD)118x336x263 mm118x336x263 mm
Weight3.5 kg
Color
Added to E-Catalogoctober 2017october 2017
Price comparison

Technology

The technology by which the projector sensor is built.

DLP. This technology is based on a chip with thousands of rotary micromirrors. Each such mirror corresponds to one pixel and has two fixed positions — “lit” and “darkened”. In most DLP projectors, there is only one sensor, and the output of a colour image is provided by the colour wheel, thanks to which the projector alternately displays the red, green and blue image; they are replaced so quickly that the viewer perceives not individual frames, but a whole colour picture. Compared to LCD models (see related section), these single-sensor projectors are more compact and offer better image contrast with deep black levels (which improves black and white image quality). However, the brightness of the colour image in DLP devices is relatively low, in addition, they are subject to the "rainbow effect": in dynamic scenes, colour artifacts may be noticeable due to the mismatch of red, green and blue image components. Three-sensor DLP projectors don`t have these shortcomings; however, such a design is very expensive, so it is found rarely, mainly among premium devices.

3LCD. Technology based on the use of translucent LCD sensors. There are three such sensors, each of them is translucent with its base colour (red, green or blue), and the final colour “picture” is formed from three images simultaneously superimposed on each other. Thanks to...this format of operation, you can achieve brighter, more saturated colours than in single-sensor DLP projectors (see the relevant paragraph); in addition, this technology is completely devoid of the "rainbow effect". Among its shortcomings are the relatively low contrast ratio (in particular, due to the low black depth) and the larger size of the projectors.

LCD(Liquid Crystal Display) — a colour rendering technology based on the modulation of light by liquid crystals. Do not confuse LCD and 3LCD sensors. 3LCD technology forms an image from three separate light streams, and in an LCD sensor, the image follows immediately from a single light beam. Sensors of this type provide a stable, contrasting and colour-rich image. Among the shortcomings of the technology, one can note the glimpse of the light grating, if you look at the picture from a close distance. Additionally, the substrate of LCD sensors is prone to fading, due to which the blue colour may begin to turn yellow over time (note that this can happen after a long time of active operation). LCD sensors require periodic maintenance, the service comes down to cleaning the air filter. LCD-sensor projectors are usually compact in size and light in weight, such models are prone to heat, and the noise threshold is above average.

— LCoS. A technology that combines the properties of DLP and LCD. Like LCD, it provides three separate sensors for the three primary colours (red, green, blue), and the final colour image is formed by the simultaneous superposition of these three components. The difference lies in the fact that in LCoS projectors the sensors are not translucent, but reflective. Thanks to this, you can achieve excellent contrast (as in DLP) combined with bright, high-quality colours without the "rainbow effect" (as in LCD). The main drawback of this technology is the impressive cost, which is why it is used mainly in premium projectors.

USB 2.0

The number of USB 2.0 ports provided by the projector.

Do not confuse these connectors with USB slave (see "Management ports") — in this case we are talking about USB ports for various peripherals. Most often, these ports are used for direct playback of content from flash drives and other storages (for example, external HDDs). At the same time, we note that video viewing is not available in some projectors (only photos), in others a very limited set of formats may be supported. However, a direct connection is often more convenient than viewing through a computer or other device. The USB ports can also be used for other purposes, such as updating firmware, transferring files between a flash drive and the projector's built-in storage, or even for keyboards/mouses (in Android devices, see above).

The USB 2.0 standard itself is considered obsolete, but it is quite enough for projectors, and newer peripherals are fully compatible with such connectors. At the same time, you rarely have to connect more than one external device to the projector at a time, so there are few models with more than one USB 2.0.

HDMI inputs

The number of HDMI inputs provided by the projector.

HDMI is a comprehensive digital interface originally designed for high-definition video and multi-channel audio. Today, it is actually a generally accepted standard, outputs of this type are available in the vast majority of HD-enabled video devices — media centers, Blu-ray players, computer graphics cards, etc. The presence of several HDMI inputs allows you to simultaneously connect several signal sources to the projector and switch between them in the projector settings without having to connect and disconnect cables.

HDMI version

HDMI interface version supported by the projector.

About the interface itself, see above, and its different versions differ in maximum resolution and other features:

— v 1.4. The version released back in 2009. Despite this, it has quite decent specifications, due to which it continues to be used in modern video equipment. Specific features of HDMI v1.4 include 3D support, the ability to work with 4K video (4096x2160) at 24 fps and with Full HD at 120 fps. In addition to the original version, there are also improved modifications — v.1.4a and v.1.4b; they differ only in some 3D-related improvements.

– v 2.0. Standard introduced in 2014. Thanks to the increased bandwidth compared to v 1.4, it allows you to transfer 4K video at speeds up to 60 fps, as well as up to 32 channels and up to 4 audio streams simultaneously. In addition, this version was the first to introduce support for the 21:9 ultra-wide format, and the v2.0a update introduced HDR compatibility, with further enhancements to this feature in version 2.0b.

— v 2.1. A version released in 2017 also known as HDMI Ultra High Speed. The data transfer rate has indeed been significantly increased, allowing the support for video up to 10K at 120 frames per second. In addition, some improvements regarding HDR have been made. Note that connecting via HDMI v2.1 requires the use of special cables, although the basic features remain available when working with standard cables.

Audio connectors

RCA (audio). Analogue audio interface using RCA jacks. Depending on the model of the projector, it can serve as both an input (for example, in addition to the component video input) and an output for connecting external audio devices. We only note that in this case only one channel of sound is transmitted through one RCA connector, and a pair of “tulips” (for the left and right channel) is considered an input or output.

3.5 mm input (mini-Jack). This connector is more compact than RCA, in addition, it allows to work with two stereo channels through one jack. On the other hand, a 3.5 mm connection is less reliable and more prone to interference. Therefore, such an input is designed mainly for simple tasks — such as transmitting sound from the audio output of a PC or laptop.

3.5 mm output (mini-Jack). This in any case is an analogue output, however, its specific purpose may be different. So, in some projectors it plays the role of a linear interface and is used to output an audio signal to active sound system or an external amplifier. In other devices, the mini-Jack works as a headphone output. There are models where these functions are combined in one connector.

Optical output. An output for transmission of a digital audio signal by a fibre optic cable; allows the transmission of multi-channel audio. Not...able for its complete insensitivity to electromagnetic interference. On the other hand, fibre optic cable is quite fragile, it must be protected from bending and strong pressure.

— Microphone input. Input for connecting an external microphone to the projector. Using it, you can stream sound from a microphone using the projector's own amplifier — for example, comment on a presentation through the same speakers through which the main sound goes.
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