The Chinese smartphone company Huawei has recently launched a new smartphone series under its sub-brand Honor. The sub-brand has released Honor 30 series that includes three new devices namely Honor 30, 30 Pro and 30 Pro+. Now the electronics giant is planning to introduce a new smartphone series called Huawei Nova 7 series on April 23. The company officially confirmed the launch date via Chinese micro-blogging website, Weibo. However, the teaser image did not carry any specific information related to the specifications and features. It is rumoured to include three devices Huawei Nova 7 SE, Nova 7, and Nova 7 Pro. But at the moment the smartphones to be included in the series are still unclear. In the meanwhile, a promo poster of the Huawei Nova 7 series has now surfaced on the web that has revealed the form factor of the upcoming devices. As per the alleged poster, the upcoming series will include a vertically placed quad rear camera set up at the upper left corner along with an LED flash as well as a periscope zoom lens that supports up to 50x digital zoom. Furthermore, it revealed that the device will be powered by the company’s latest 7nm Kirin 985 chipset clocked at 2.58GHz that will be found on the just arrived Honor 30 series. The leaked poster further showcases the Nova 7 featuring a curved display with a dual punch-hole on the top left corner. Looking at the alleged poster image the handset is expected to come in three colour options red, purple and gradient white. Also, it will be supported by 40W fast charging support. As per the previous reports, the upcoming series will support 5G connectivity. The Huawei Nova 7 and Huawei Nova 7 Pro are tipped to draw its power from Kirin 820 SoC and Kirin 990 SoC respectively. Also, both the mobile phones will have 40W fast charging support. For the latest gadget and tech news, and gadget reviews, follow us on Twitter, Facebook and Instagram. For newest tech & gadget videos subscribe to our YouTube Channel. You can also stay up to date with the Gadget Bridge Android App.