🐕‍🦺 Fuji Xh1 Vs Sony A6500 Bravo, remarkable idea and is duly

Apixel on Sony Alpha a6500 sensor is approx. 0.5% bigger than a pixel on Fujifilm X-H1. Pixel density 6.65 MP/cm² 6.62 MP/cm² Difference: 0.03 µm (0.5%) Fujifilm X-H1 has approx. 0.5% higher pixel density than Sony Alpha a6500. To learn about the accuracy of these numbers, click here. Specs Fujifilm X-H1 Sony Alpha a6500 Crop factor 1.53 1.53

Comparison Max. image resolution 6000 x 4000 6000 x 4000 Sensor Sensor size x mm x mm Sensor resolution 6058 x 4012 6045 x 4003 Diagonal mm mm Sensor size comparison Sensor size is generally a good indicator of the quality of the camera. Sensors can vary greatly in size. As a general rule, the bigger the sensor, the better the image quality. Bigger sensors are more effective because they have more surface area to capture light. An important factor when comparing digital cameras is also camera generation. Generally, newer sensors will outperform the older. Learn more about sensor sizes » Actual sensor size Note Actual size is set to screen → change » vs 1 1 ratio Fujifilm X-H1 Sony Alpha a6500 Surface area Difference 0 mm² 0% X-H1 and Alpha a6500 sensors are the same size. Note You are comparing cameras of different generations. There is a 2 year gap between Fujifilm X-H1 2018 and Sony Alpha a6500 2016. All things being equal, newer sensor generations generally outperform the older. Pixel pitch tells you the distance from the center of one pixel photosite to the center of the next. It tells you how close the pixels are to each other. The bigger the pixel pitch, the further apart they are and the bigger each pixel is. Bigger pixels tend to have better signal to noise ratio and greater dynamic range. Difference µm Pixel pitch of Alpha a6500 is approx. higher than pixel pitch of X-H1. Pixel area µm² µm² Pixel or photosite area affects how much light per pixel can be gathered. The larger it is the more light can be collected by a single pixel. Larger pixels have the potential to collect more photons, resulting in greater dynamic range, while smaller pixels provide higher resolutions more detail for a given sensor size. Relative pixel sizes Pixel area difference µm² A pixel on Sony Alpha a6500 sensor is approx. bigger than a pixel on Fujifilm X-H1. Pixel density tells you how many million pixels fit or would fit in one square cm of the sensor. Higher pixel density means smaller pixels and lower pixel density means larger pixels. Difference µm Fujifilm X-H1 has approx. higher pixel density than Sony Alpha a6500. To learn about the accuracy of these numbers, click here. Specs Effective megapixels ISO sensitivity Auto, 200-12800 extends to 100-51200 Auto, 100-25600 expandable to 51200 Focal length 35mm equiv. Aperture priority Yes Yes Max. aperture 35mm equiv. n/a n/a Metering Multi, Center-weighted, Spot Multi, Center-weighted, Spot Exposure compensation ±5 EV in 1/3 EV steps ±5 EV in 1/3 EV, 1/2 EV steps Min. shutter speed 30 sec 30 sec Max. shutter speed 1/8000 sec 1/4000 sec Viewfinder Electronic Electronic White balance presets 7 8 Screen resolution 1,040,000 dots 921,600 dots Max. video resolution 4096x2160 24p 3840x2160 30p/25p/24p Storage types SD/SDHC/SDXC SD/SDHC/SDXC/MS PRO Duo USB USB 5 GBit/sec USB 480 Mbit/sec Battery NP-W126S lithium-ion battery NP-FW50 Lithium-ion battery Dimensions x x mm 120 x x mm Choose cameras to compare Popular comparisons Fujifilm X-H1 vs. Nikon D750 Fujifilm X-H1 vs. Fujifilm X-T3 Fujifilm X-H1 vs. Olympus OM-D E-M1 Mark II Fujifilm X-H1 vs. Sony Alpha A7 III Fujifilm X-H1 vs. Nikon D500 Fujifilm X-H1 vs. Canon EOS 5D Mark III Fujifilm X-H1 vs. Canon EOS R Fujifilm X-H1 vs. Fujifilm X-T2 Fujifilm X-H1 vs. Nikon D810 Fujifilm X-H1 vs. Nikon D7200 Fujifilm X-H1 vs. Fujifilm X-T1 Diagonal Diagonal is calculated by the use of Pythagorean theorem where w = sensor width and h = sensor height Fujifilm X-H1 diagonal w = mm h = mm Diagonal = √ + = mm Sony Alpha a6500 diagonal w = mm h = mm Diagonal = √ + = mm Surface area Surface area is calculated by multiplying the width and the height of a sensor. X-H1 sensor area Width = mm Height = mm Surface area = × = mm² Alpha a6500 sensor area Width = mm Height = mm Surface area = × = mm² Pixel pitch Pixel pitch is the distance from the center of one pixel to the center of the next measured in micrometers µm. It can be calculated with the following formula Pixel pitch = sensor width in mm × 1000 sensor resolution width in pixels X-H1 pixel pitch Sensor width = mm Sensor resolution width = 6058 pixels Pixel pitch = × 1000 = µm 6058 Alpha a6500 pixel pitch Sensor width = mm Sensor resolution width = 6045 pixels Pixel pitch = × 1000 = µm 6045 Pixel area The area of one pixel can be calculated by simply squaring the pixel pitch Pixel area = pixel pitch² You could also divide sensor surface area with effective megapixels Pixel area = sensor surface area in mm² effective megapixels X-H1 pixel area Pixel pitch = µm Pixel area = = µm² Alpha a6500 pixel area Pixel pitch = µm Pixel area = = µm² Pixel density Pixel density can be calculated with the following formula Pixel density = sensor resolution width in pixels ² / 1000000 sensor width in cm One could also use this formula Pixel density = effective megapixels × 1000000 / 10000 sensor surface area in mm² X-H1 pixel density Sensor resolution width = 6058 pixels Sensor width = cm Pixel density = 6058 / / 1000000 = MP/cm² Alpha a6500 pixel density Sensor resolution width = 6045 pixels Sensor width = cm Pixel density = 6045 / / 1000000 = MP/cm² Sensor resolution Sensor resolution is calculated from sensor size and effective megapixels. It's slightly higher than maximum not interpolated image resolution which is usually stated on camera specifications. Sensor resolution is used in pixel pitch, pixel area, and pixel density formula. For sake of simplicity, we're going to calculate it in 3 stages. 1. First we need to find the ratio between horizontal and vertical length by dividing the former with the latter aspect ratio. It's usually 43 or 32, but not always. 2. With the ratio r known we can calculate the X from the formula below, where X is a vertical number of pixels X × r × X = effective megapixels × 1000000 → X = √ effective megapixels × 1000000 r 3. To get sensor resolution we then multiply X with the corresponding ratio Resolution horizontal X × r Resolution vertical X X-H1 sensor resolution Sensor width = mm Sensor height = mm Effective megapixels = r = = X = √ × 1000000 = 4012 Resolution horizontal X × r = 4012 × = 6058 Resolution vertical X = 4012 Sensor resolution = 6058 x 4012 Alpha a6500 sensor resolution Sensor width = mm Sensor height = mm Effective megapixels = r = = X = √ × 1000000 = 4003 Resolution horizontal X × r = 4003 × = 6045 Resolution vertical X = 4003 Sensor resolution = 6045 x 4003 Crop factor Crop factor or focal length multiplier is calculated by dividing the diagonal of 35 mm film mm with the diagonal of the sensor. Crop factor = mm sensor diagonal in mm X-H1 crop factor Sensor diagonal in mm = mm Crop factor = = Alpha a6500 crop factor Sensor diagonal in mm = mm Crop factor = = 35 mm equivalent aperture Equivalent aperture in 135 film terms is calculated by multiplying lens aperture with crop factor focal length multiplier. X-H1 equivalent aperture Aperture is a lens characteristic, so it's calculated only for fixed lens cameras. If you want to know the equivalent aperture for Fujifilm X-H1, take the aperture of the lens you're using and multiply it with crop factor. Crop factor for Fujifilm X-H1 is Alpha a6500 equivalent aperture Aperture is a lens characteristic, so it's calculated only for fixed lens cameras. If you want to know the equivalent aperture for Sony Alpha a6500, take the aperture of the lens you're using and multiply it with crop factor. Crop factor for Sony Alpha a6500 is More comparisons of Fujifilm X-H1 Fujifilm X-H1 vs. Nikon D850 Fujifilm X-H1 vs. Sony Alpha a6500 Fujifilm X-H1 vs. Panasonic Lumix DC-G9 Fujifilm X-H1 vs. Sony Alpha a7R III Fujifilm X-H1 vs. Fujifilm X-Pro2 Fujifilm X-H1 vs. Fujifilm X-T20 Fujifilm X-H1 vs. Nikon D700 Fujifilm X-H1 vs. Canon EOS M50 Fujifilm X-H1 vs. Canon EOS 5D Mark IV Fujifilm X-H1 vs. Panasonic Lumix DC-FZ1000 II Enter your screen size diagonal My screen size is inches Actual size is currently adjusted to screen. If your screen phone, tablet, or monitor is not in diagonal, then the actual size of a sensor won't be shown correctly. 3 1.04m-Dot 3-Way Tilt LCD Touchscreen. 325-Point Intelligent Hybrid AF System. 1080p at 120 fps; Flicker Reduction Mode. 1.28″ Sub-LCD Top Screen. Weather-Sealed Body; 2 UHS-II SD Slots. Offering plenty of features inside a durable magnesium-alloy housing, the FUJIFILM X-H1 Mirrorless Digital Camera from Fujifilm aims to position itself News, Tips & ReviewsAbout UsThe Professional's Source Since Log InAccount & OrdersMy Cart TheFuji X-T3 arrived today and when I first took it out of the box, inserted the battery and looked through the EVF I thought "Nice camera". I snapped a shot or two to hear the shutter, and then set it down. It was later on that I started to really dig in. I charged the battery, dug into the menus, admired the 18-55 Kit Zoom that is of ^{New Cameras » Compare Price List General Brand Fujifilm Sony Camera Model X-H1 α6500 / Alpha 6500 / Alpha A6500 / A6500 ILCE-6500 Camera Type Mirrorless Mirrorless Launch Year February, 2018 December, 2016 Market Status Available in India Available in India Sensor Image Sensor Type CMOS Exmor CMOS Image Sensor Size W x H APS-C mm Crop Frame DX APS-C mm, Crop Frame Effective Pixels Megapixels Megapixels Total pixels Megapixels Max resolution 6000 x 4000 pixels 6000 x 4000 pixels Aspect Ratio 11, 32, 169 32 ISO Rating ISO 200 - 12800 expandable min 100 to max 51200 ISO 100 - 25600 White Balance Presets 7 Custom White Balance Yes Autofocus Point 325 425 Processor X-Processor Pro Bionz X Shutter Minimum Shutter speed 30 sec 30 sec Maximum Shutter speed 1/8000 sec 1/4000 sec Shutter Type Mechanical + Electronic Shutter Electronically-controlled, vertical-traverse, Focal-plane Shutter Continuous Shooting Frame rate 14 fps 11 fps Lens Lens Lens Mount FUJIFILM X mount Sony E-mount Dust reduction system Compatible lenses Fujifilm X mount Lens range Sony E-mount Lenses Focal Length Optical Zoom Aperture Viewfinder Viewfinder Type Electronic OLED Electronic Viewfinder XGA OLED Viewfinder Coverage 100% 100% Viewfinder Magnification with 50mm lens Approx -1m-1, with 50 mm Lens at Infinity Viewfinder Eyepoint Approx. 23 mm Approx. 23 mm from the eyepiece lens, mm from the eyepiece frame Viewfinder Diopric adjustment -4m +2m-1 dpt to + m-1 Display Display Size 3 inch inch Display Type TFT Color, Tilting LCD Monitor TFT Color, Tilting LCD Monitor Touchscreen Yes No Screen Dots 1,040,000 dots 921,600 dots Flash Built in Flash No Yes External Flash Yes with Hot-shoe Yes via hot shoe Flash Type Auto Pop-Up Flash Coverage 6 m ISO 100 Power Battery Model NP-W126S Li-ion Battery NP-FW50 Li-ion Battery Battery Type Rechargeable Li-ion Rechargeable Li-ion Battery Life Approx. 310 shots Approx. 350 shots Battery Life for Video Up to 45 min Approx. 70 min Battery Capacity Connectivity Wi-Fi Wi-Fi Wi-Fi NFC Yes Bluetooth Yes, HDMI Yes Micro-HDMI Yes Micro-HDMI Type-D USB USB 5 GBit/sec USB 480 Mbit/sec GPS No Remote control Yes Wired or via smartphone Yes wired Others Storage Memory Card Type SD/SDHC/SDXC card UHS-II compatible SD/SDHC/SDXC UHS-I compliant, Memory Stick Pro Duo/XC-HG Duo Image File Format JPEG, RAW JPEG, RAW Video File Format MOV, Full HD, 4k video recording MPEG-4, AVCHD, XAVC S, / 4K video Body Dimension W x H x D x x mm x x inch x x mm Weight 673 g with batteries 453 g with batteries Body Construction Magnesium Alloy Durability Moisture resistance Colours Black Black We use cookies to ensure that we give you the best experience on our website. This includes cookies from third party social media websites and ad networks. Such third party cookies may track your use on Oneindia sites for better rendering. Our partners use cookies to ensure we show you advertising that is relevant to you. If you continue without changing your settings, we'll assume that you are happy to receive all cookies on Oneindia website. However, you can change your cookie settings at any time. Learn more} ^{FujifilmX-H1 Vs. Sony A7III Vs. Sony A6500 Comparisons} ^{Let’s compare the Fujifilm X-H1 vs Sony A6500. Our comparison table below covers all the important specifications of each camera. Fujifilm has unveiled the X-H1 mirrorless camera with megapixel APS-C sized X-Trans CMOS III sensor and X-Processor Pro image processing engine. Even the new X-H1 has the same sensor in resolution to the Sony A6500, it has a significantly larger and heavier body. In our opinion, the X-H1 is quite expensive. Do you think that the X-H1, with the price tag of only $1,900, offers enough features against the A6500? The Fujifilm X-H1 is the company’s highest performance APS-C model with most video-capable features. It’s based on the X-T2 but adds in-body image stabilization as well as DCI 4K and more comprehensive set of video options. If you’re trying to decide which one to buy as your first camera, check out the differences between the Fujifilm X-H1 vs Sony A6500 cameras. Specifications Comparison of Fujifilm X-H1 vs Sony A6500 Cameras Below you can see the specs comparison table of Fujifilm X-H1 vs Sony A6500 cameras. Some differences like sensor, image size, shooting speed, lcd size etc.. detailed as bold on the table. Fujifilm X-H1 Sony A6500 Sensor resolution 24MP 24MP Sensor size APS-C APS-C Image Stablization 5-axis, 5-axis Burst speed 14 fps with e-shutter, 8 fps mechanical 11 with grip 11 fps AF Joystick? 8-way No Touchscreen Yes Yes Screen articulation Two-axis tilt Tilt EVF dots dots Viewfinder magnification RAW buffer 40 231 JPEG buffer 27 110 Video Bit depth 8 8 Max bitrate 200 Mbps 100 Mbps Mic / Headphone sockets? Yes / On VPB-XH1 accessory grip Yes / No Log capture? Yes Yes HDMI Micro Micro USB Micro Type B Micro Type B Battery life CIPA 310 310 Dimensions x x in. 140 x 97 x 86 mm x x in. 120 x 67 x 53 mm Weight with card and battery 673g 453g Price body only $1,900 $1,298 FUJIFILM X-H1 advantages over Fujifilm X-T2 In-body image stabilization – Yes Reduces the effects of camera shake at slower shutter speeds Higher Max Flash Sync Reduce the effect of ambient light in flash shots Dual Card Slots – Yes Always-on wireless connectivity Top Deck Display – Yes Check settings with a screen on top of the camera Faster burst rate 14fps vs 11 fps Faster Shutter Speed 1/32000 vs 1/4000 sec Sony A6500 advantages over FUJIFILM X-H1 Less Expensive – Save money for lenses or accessories Built-in NFC Yes Internal Flash Yes Thinner and Lighter Bigger JPEG and RAW Buffer} FujifilmX-H1, X-T100, X-T200, X-A5, X-A7 Firmware Updates Released; Voigtlander MACRO APO-ULTRON 35mm f/2 lens for Fuji X-mount; Laowa 10mm f/4 Cookie Pancake Lens for APS-C Mirrorless Cameras; Fujifilm X-H2S Firmware Update Version 1.02 Released; Canon RF 15-30mm f/ IS STM & RF 24mm f/1.8 Macro IS STM Lenses Announced

125 características comparadasFujifilm X-H1Sony Alpha a6500Por que Fujifilm X-H1 é melhor que Sony Alpha a6500?Fotografia mais rápida em alta resolução com AF em formato JPEG?14fpsvs11fpsVelocidade máxima do obturador 50% maior?1/8000svs1/4000sTem a função timelapse? de energia a mais?1200mAhvs1100mAhTem ranhuras duplas para cartões?1 versão/versões mais recentes de USB?3vs210°C menos temperatura operacional.?-10°Cvs0°CPor que Sony Alpha a6500 é melhor que Fujifilm X-H1?100 pontos de foco a mais?425vs325Bateria com duração 40shots maior?350shotsvs310shots220g mais leve?453gvs673gTem sensor de iluminação traseira?Tem flash?Volume menor? NFC? mais estreito? EOS 5D Mark IV + Canon EF 24-105mm f/4L IS USMNikon D600 + AF-S NIKKOR 24-85mm VRCanon EOS Rebel SL2 + Canon EF-S 18-55mm f/ IS STMFujifilm X-T30 + Fujifilm XF 18-55mm f/ R LM OISNikon D7100 + 18-105mm f/ ED VR DXCanon EOS 77D + Canon EF-S 18-135mm f/ IS USMNikon Z50 + Nikon Nikkor Z DX 16-50mm f/ VRCanon EOS 70D + Canon EF-S 18-135mm f/ IS STMCanon EOS 70D + Canon EF-S 18-55mm f/ IS STMCanon EOS M6 + Canon EF-M 15-45mm f/ IS STMAvaliações de usuáriosDesignTipo Desconhecido. Ajude-nos sugerindo um valor. Sony Alpha a6500O tipo de tipo de visor que a câmera dispositivo tem proteção adicional para evitar falhas causadas por poeira, pingos de chuva e respingos de maior resolução de tela permite proporciona imagens mais nítidas, aprimorando o modo como você enxerga suas fotos na EVF Desconhecido. Ajude-nos sugerindo um valor. Fujifilm X-H1 Desconhecido. Ajude-nos sugerindo um valor. Sony Alpha a6500Um visor eletrônico EVF, do inglês "electronic viewfinder" de maior resolução fornece imagem mais nítida, produzindo visão de qualidade comparável à de um visor motor de foco move a lente para promover foco automático. Em câmeras profissionais, a presença de um motor de foco no corpo da câmera permite que se use vários tipos de lentes, incluindo lentes que não tenham seu próprio motor de foco. Para câmeras compactas, o motor de foco é geralmente giratórias podem ser úteis para enquadramentos uma cobertura de imagem de 100% você pode compor a imagem corretamente quando tira a foto. Com uma cobertura menor você poderá ter de cortar suas fotos depois para que fiquem maior o tamanho da tela, melhor a experiência do dos aspectos mais importantes de uma câmera é o tamanho de seu sensor. Um sensor maior irá capturar mais luz, o que resulta em melhor desempenho com pouca luz, faixa dinâmica e qualidade geral de mais pontos de foco, maior é a flexibilidade em selecionar em qual parte do cenário focar. Também dá ao sensor de imagem uma melhor probabilidade ao identificar a área correta do cenário para focar nos modos número de megapíxeis determina a resolução das imagens capturadas com a câmera principal. Um número maior indica que a câmera é capaz de capturar mais detalhes. No entanto, a quantidade de megapíxeis não é o único fator que determina a qualidade de uma maior sensibilidade à luz nível ISO, o sensor absorve mais luminosidade. O recurso pode ser utilizado para capturar imagens de objetos em movimento, usando o obturador em maior velocidade, ou para capturar imagens em ambientes de baixa luminosidade sem o uso de ISO expandido permite que você vá além do ISO base. Ele faz isso aprimorando digitalmente a saída da imagem. A imagem resultante terá menos qualidade do que quando permanecer dentro da faixa ISO base, mas pode ser útil em certas um estabilizador de imagem, o sensor de imagem e não a lente se move para compensar qualquer vibração da câmera. Isso significa que a imagem será estabilizada independentemente da lente disparo contínuo rápido é útil para capturar imagens de o rastreamento AF, uma vez escolhido o objeto e pressionado o obturador até a metade, se o objeto se mover, o foco automático irá segui-lo. Sem mais disparos fora de resolução máxima disponível para vídeos capturados com a câmera principal. Embora possa ser possível optar por outras velocidades de gravação, essas opções costumam gerar vídeos em menor sistema de focagem automática por detecção de fase é mais veloz que um sistema de focagem automática por detecção de contraste. Mesmo ao gravar cenas com muitos movimentos rápidos, os vídeos são nítidos e gravação os vídeos mantêm-se nítidos e entrada para microfone permite a conexão de microfones externos avançados ou esse conector padrão, você pode conectar a maioria dos fones de ouvido ao seu estéreo permitem a gravação de arquivos de áudio ou vídeo em sistema estéreo sem o uso de microfone função timelapse mostra uma longa passagem de tempo accelarada. Uma série de fotografias tiradas na mesma posição durante um longo período são ligadas para criar um pequeno vídeo. É uma óptima maneira de capturar coisas como o pôr-do-sol ou as nuvens a moverem-se no maior o bitrate de gravação de video melhor a qualidade do video, com mais e melhor detalhe e menos artefatos de mais microfones um dispositivo tiver, melhor a filtragem de ruídos de fundo e melhor a qualidade de gravação de som em CIPA é uma medida padrão e independente que determina quantas fotos a câmera pode tirar antes que a bateria bateria é removível e, se quebrar, pode ser trocada pelo usuárioA bateria pode ser recarregada e utilizada indicador lhe mostra quando o dispositivo está com pouca capacidade da bateria representa a quantidade de energia elétrica que uma bateria pode armazenar. Maior capacidade pode indicar maior vida útil da dispositivo pode ser conectado a redes é uma tecnologia sem fio que permite transferir dados com facilidade entre diferentes dispositivos, como smartphones, tablets e duas ranhuras para cartões de memória, permitindo que você guarde mais fotos sem precisar trocar cartões. Isto é particularmente útil em sessões de fotografia mais longas em que você precisa de mais câmera pode tirar uma série de fotografias, deslocando ligeiramente o sensor com cada uma delas. Estas podem então ser combinadas para criar uma imagem de resolução extremamente alta. É particularmente útil para coisas como fotografar obras de arquivo de imagem RAW contém dados minimamente processados a partir do sensor de imagem. Os ficheiros RAW são assim chamados porque ainda não foram processados e, portanto, ainda não estão prontos para ser impressos ou editados com um editor de imagens capaz de tirar fotos em formato lossless compressed raw. Isso tem todas as vantagens de fotografar em raw, ocupando muito menos espaço de armazenamento. O tamanho de arquivo menor também permite velocidades de leitura/gravação mais versões de Wi-Fi suportadas pelo tecnologia permite que o usuário utilize o próprio smartphone como controle remoto para o com entrada HDMI ou mini HDMI podem transferir vídeo e áudio em alta resolução para um D850 + Nikon AF-S Nikkor 24-120mm f/4G ED VRSony Alpha a7 III + Sony FE 24-105mm f/4 G OSSSony Alpha a9 + Sony FE 24-70mm GMCanon EOS 5D Mark IV + Canon EF 24-105mm f/4L IS USMSony Alpha a7 III + Sony FE 28-70mm f/3__5-5__6 OSSSony Alpha 7R III + Sony FE 24-70mm f/4 ZA OSS Vario-Tessar T*Exibir tudoThis page is currently only available in English.

Inmy case, the Fujifilm system is an adjunct to my high MP full-frame system. The latter is still my go-to for most tripod-based work (a lot of landscape photography) and a few other things. For most handheld photography, the resolution of the APS-C system is plenty good and I can make/sell 20" x 30" prints from it. 7vvq1U.

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fuji xh1 vs sony a6500