[Hardware] ASRock Z690 PG Velocita Review: Expensive, But capable

[Agent47]

 

 

Full-featured motherboards based on the Intel Z690 chipset don’t come cheap, with some models costing more than $600. In this marketplace, ASRock’s $469 PG Velocita is a relatively-affordable option costing more than $100 less than the Z690 Taichi we reviewed previously and providing built-in Wi-Fi 6E, a PCIe 5.0 x4 M.2 socket and strong overclocking capability. However, stiff competition from other Z690 boards and a last-gen audio codec keep the PG Velocita from making our list of best motherboards.which. The Z690 version of the PG Velocita brings an updated appearance, improved power delivery, and an integrated PCIe 5.0 x4 M.2 socket. Like all of the other Z690-based boards we’ve tested, we again see more of an iterative update with the significant changes coming in the form of support for the new socket and all of the benefits Alder Lake brings to the table, including PCIe 5.0 functionality.

The Z690 PG Velocita tweaked its appearance over the Z590 version in a couple of ways, including a chipset heatsink redesign, some color swaps on the M.2 heatsinks, and a redesign of the IO cover. Overall, we feel it’s an improvement. The board also increased the M.2 socket count to four (from three), including one native PCIe 5.0 x4 (128 Gbps) socket, which we don’t see too much on Z690 boards. There are plenty of USB ports on the rear IO area; however, the only 20 Gbps port is on the front panel. ASRock even includes a GPU holder to support your heavy graphics cards.

Performance for the PG Velocita varied, but for the most part, it was average among the other DDR5 boards we’ve tested so far. Gaming performance was spot on, as was AIDA memory bandwidth testing. Power consumption was ever-so-slightly above average, not that you’d notice on your power bill. Overall, out-of-the-box performance is not a concern.
The Z690 PG Velocita is built with a black, eight-layer PCB. Over the rear IO area is a black and grey plastic shroud that partially covers the active VRM heatsinks. The first RGB element hides below this shroud and lights up the lines around the Chrome ASRock branding.

All of the M.2 sockets on the bottom half of the board get a heatsink as well. The chipset heatsink sports a unique circle design with RGBs and a see-through plexi part just above. Overall, the black and red appearance should match well with most build themes, but to me, it doesn’t quite give off the premium vibe some other boards in this class do.
Focusing on the top half of the board, we get a better look at the VRM heatsinks, RAM sockets, and other connectivity in this area. Starting on the left, we already discussed the RGB lighting hidden below the shroud. It’s an accent and won’t take over the inside of your chassis, but the LEDs are saturated, producing nice color. The VRM heatsinks, while not as large as others, have active cooling on the left bank and a heat pipe that connects the two in order to share the thermal dissipation duties. Unlike with previous iterations, this fan started quiet and remained quiet throughout our testing. Two 8-pin EPS connectors provide power for the CPU.

Continuing right, we run into the four reinforced DRAM sockets that support up to 128GB of DDR5. ASRock lists speeds up to DDR5 6400+, but your mileage may vary. In order to reach those speeds, you need an appropriate memory kit and a solid IMC on the processor (along with a BIOS that will do it).

Just above the DRAM slots are the first three (of eight) 4-pin fan headers. We have the CPU_FAN, CPU_FAN2/WP, and VRM_FAN headers in this area. The first CPU fan and VRM fan headers support 1A/12W of output, while the CPU_FAN2/WP header in the middle supports up to 3A/36W. The rest of the chassis fans output 1A/12W outside of the WP header (bottom edge) which is good for 2A/24W. There are plenty of headers and power for your fans and water pump.

To the right are the first RGB headers. Here we find two 3-pin ARGB headers, while on the bottom of the board is another 3-pin ARGB and a 4-pin RGB header. Control over the RGB lighting is handled by the ASRock Polychrome software, which worked fine in our limited testing.

Sliding around to the right edge, we run into the onboard power and reset buttons followed by the 24-pin ARX connector to power the board. The first USB 3.2 Gen1 (5 Gbps) header and a front-panel USB 3.2 Gen2x2 (20 Gbps) Type-C header are below that.
On the power delivery front, the Z690 PG Velocita got a slight upgrade from its Z590 counterpart. More power stages were added, and the VRM type was upgraded to SPS MOSFETs. Power comes from the 8-pin EPS connector(s) and onto a Renesas RAA229131 20-channel controller. Next, it goes to the 16 60A Intersil ISL99360 SPS MOSFETs. While the 960A available is incredibly low compared to similarly priced boards, it still handled our Intel i9-12900K processor at stock and while overclocked.
Moving down to the bottom of the board, we notice heatsinks covering all the important parts, but not much else. Starting on the left with audio, hidden below the plastic cover is the last generation flagship Realtek ALC 1220 codec and five dedicated audio capacitors. Most users will be happy with this solution, though other boards use the latest and greatest Realtek codec at the same price point. For the price, I would like to have seen the latest and greatest (ALC 408x) used here.

In the middle of the board, we find a few PCIe slots, along with four M.2 sockets sprinkled in among them. Starting with PCIe, there are four total slots--three full-length slots (top two are reinforced) and two open-ended x1 size slots. The top two full-length slots are wired for PCIe 5.0 and CPU-connected, while the bottom slot is PCIe 4.0 and fed from the chipset. The primary GPU slots run at x16/x0 or x8/x8, both PCIe 5.0. This configuration supports AMD Crossfire multi-GPU technology, but curiously (as it has the lanes/bandwidth), not Nvidia SLI. The x1 slots source their bandwidth from the chipset and run at PCIe 3.0 x1.

For M.2 connectivity, the Z690 Velocita has four sockets, an increase of one over the previous generation. The top socket, M2_1, supports PCIe 4.0 x4 modules up to 80mm, with M2_3 running the same speed and supporting the same PCIe protocol but supporting larger 110mm modules. M2_2 supports both SATA and PCIe drives with speeds up to PCIe 3.0 x4 (32 Gbps) and 80mm devices. M2_4 is your ‘Blazing’ PCIe 5.0 x4 (128 Gbps) socket. It supports PCIe modules up to 80mm. Note that the first PCIe socket downgrades to x8 mode with this socket occupied.