Before we get into our more in-depth comparison of the Panasonic LX100 II and Panasonic LX10, let’s take a quick look at the primary characteristics of both cameras. Softmatic’s QR Designer for Photoshop makes it simple to create QR Codes straight inside your Photoshop document. URLs, email addresses, and text may be coded for use in watermarking, flyers, and business cards. The surface area of a sensor is derived by multiplying the sensor’s width and height together. APOTELYT.com has no association with any of the equipment manufacturers featured on this website, and it does not participate in retail sales. Please go to the website of your preferred online merchant for details on product purchases and delivery.
There are many reasons to choose the Panasonic Lx100 II over the Panasonic Lx10.
When the size of the pixel is increased, the amount of light that can be gathered by that pixel increases. Pixel pitch is a measurement of the distance between the centers of one pixel and the centers of the next. In particular, the LX100 II has a hotshoe, which makes it simple to connect extra accessories, such as an external flash gun, to the camera. Within the following table are included the primary physical features of the two cameras as well as a more comprehensive list of alternatives. If you would want to visualize and compare various camera combinations, you may go to the CAM-parator app and choose from a large number of different cameras available there. The LX100 II and LX10 have a portability grade of 81 and 88, respectively, when measured in terms of their size and weight.
To compute crop factor or focal length multiplier, divide the diagonal of 35mm film (43.27) by the diagonal of the sensor (43.27 mm) and multiply this result by 100. In terms of their age, both the LX10 and the LX100 II are relatively new models that are part of the company’s current product lineup. The Panasonic LX10 replaced the preceding Panasonic LX7, while the Panasonic LX100 II was a successor to the earlier Panasonic LX100. The official Panasonic website has further information on the two cameras (e.g., user guides and manuals), as well as on the connected accessories.
See the part lower down this page for a more in-depth analysis of size options. The pixel density of a sensor indicates how many million pixels can or would fit in a square centimeter of the sensor. What makes the Panasonic LX10 and Panasonic LX100 II cameras stand out amongst their peers? Do the cameras’ specs position them among the best in their respective classes?
The following table summarizes the connection of the Panasonic Lumix DMC-LX10 and Panasonic Lumix DC-LX100 II cameras, with special reference to the interfaces the cameras (and respective accessories) offer for accessory control and data transmission. The side-by-side display of the Panasonic LX10 and the Panasonic LX100 II below provides an indication of the physical size and weight of the two cameras, respectively. There are three sequential viewpoints available: from the front, from the top, and from the rear. All dimensions (width, height, and depth) are rounded to the closest millimeter in this table.
Pixel Dimensions: Panasonic Lumix DC LX100 II vs Panasonic Lumix DMC LX10 Lx10 Pixel Area
The Panasonic LX10, on the other hand, features a 1′′ (13.2 x 8.8 mm) BSI-CMOS sensor with a resolution of 20.0MP. The LCD panels of the Panasonic LX100 II and Panasonic LX10 are the same size, measuring 3.00 inches diagonally. Another consideration is weight, which is particularly significant when choosing a camera that you will be carrying about with you all day. It is worth noting that the Panasonic LX10 is substantially lighter than the Panasonic LX100 II, which may prove to be a considerable benefit on lengthy walking expeditions. The top view comparison of the Panasonic LX100 II and the Panasonic LX10 will be discussed next.
Contrast on the Street
In reality, both of the cameras under discussion are equipped with an electronic shutter, which allows them to shoot absolutely silently when necessary. While this mode is good for capturing still items, it is less ideal for photographing moving objects or shooting under artificial lighting. Returning to the subject of sensor resolution, it should be noted that the LX100 II does not have an anti-alias filter fitted, allowing it to record all of the information that the sensor is capable of capturing. Aside from the body and the sensor, cameras may and do vary in a variety of other ways as well. For example, the LX100 II is equipped with an electronic viewfinder, which may be quite useful while shooting in bright sunshine or low light conditions. The LX10, on the other hand, depends on live view and the back LCD to frame the shot.
In terms of sensor innovation, the more recent LX100 II will have an advantage over its predecessor. Larger pixels have the ability to gather more photons, resulting in a broader dynamic range, but smaller pixels enable better resolutions for a given sensor area, resulting in a more compact sensor. The table below gives a synthesis of the camera evaluations provided by some of the most well-known photo-gear review sites on the internet (amateurphotographer , cameralabs , digitalcameraworld , dpreview , ephotozine , photographyblog ).
DXO Mark provides accurate and consistent information on real sensor performance for a wide range of cameras. A total score for each camera sensor is given based on lab testing, and scores for dynamic range (“DXO Landscape”), color depth (“DXO Portrait”), and low-light sensitivity (“DXO Low Light”) are also provided (“DXO Sports”). An overview of the physical sensor parameters, as well as the results of the DXO sensor quality testing, is provided in the accompanying table for a selection of comparator-cameras. The Panasonic Lumix DMC-LX10 and the Panasonic Lumix DC-LX100 II are two digital cameras that were released to the public in September 2016 and August 2018, respectively. The Panasonic Lumix DMC-LX10 and the Panasonic Lumix DC-LX100 II are both interchangeable lens cameras. The Lumix LX10 and the LX100 II are both fixed-lens compact cameras that are based on one-inch and Four Thirds sensor technology, respectively.