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Genesis G70 to reportedly get Sonata N-Line turbo engine

The Genesis G70 is still relatively new, but that doesn’t mean Genesis isn't going to tinker with it. This report from Car and Driver claims that the new 2.5-liter turbocharged four-cylinder going in the Hyundai Sonata N-Line will also be making its way into the G70Â’s engine bay. Hyundai estimates this engine will produce 290 horsepower and 310 pound-feet of torque in the Sonata. ThatÂ’s a significant improvement over the 2.0-liter turbocharged four-cylinder used as the base engine in the G70 today, which makes 252 hp and 260 lb-ft. Doing the math, the G70 could be getting a boost of about 38 horsepower and 50 pound-feet of torque. Increased power from the turbo four would make the 3.3-liter, twin-turbo V6 less of an upgrade at 365 hp and 376 lb-ft, unless Genesis squeezes out more power. We wouldn't complain about that. The news does casts doubt on the future of a manual transmission option. Genesis offers the manual in only one trim of the G70 now, and thatÂ’s paired with the 2.0-liter turbo four-cylinder. Take that engine away, and we can only hope that Genesis feels itÂ’s necessary to mate up a manual with the new 2.5-liter turbo. As of now, the Sonata N-Line is the only Hyundai announced to use this engine, and itÂ’s being paired with an eight-speed dual-clutch automatic in that application. Car and Driver says the manual take rate on the G70 so far is only 4 percent, which isnÂ’t a promising statistic. The most obvious time for this powertrain news would be paired to a mid-cycle refresh of the G70. As itÂ’s still a relatively new car, we donÂ’t expect to see that until 2021 or 2022. We'll let you know if any of this conjecture becomes reality.

Hyundai and Kia introduce new predictive transmission tech

Hyundai and Kia have announced that the two have developed a new transmission control system that optimizes shift logic to both improve efficiency and reduce "gear hunting." The system utilizes real-time traffic data, built-in 3D navigation and the same sensors that feed the cars' advanced safety and driver assist tech to proactively choose the right gear — even neutral in some cases — to reduce both fuel consumption and wear-and-tear. The Korean sister brands call it the "Information Communication Technology Connected Shift System," or "ICT" for short, and Hyundai says it delivers not just improved frugality, but a better all-around driving experience. ICT programming allows the transmission control unit to collect and interpret traffic, camera, sensor, navigation route, elevation and topographical data.  "Using all of these inputs, the TCU predicts the optimal shift scenario for real-time driving situations through an artificial intelligence algorithm and shifts the gears accordingly," the announcement said. "For example, when a relatively long slow down is expected and radar detects no speed irregularities with the car ahead, the transmission clutch temporarily switches to neutral mode to improve fuel efficiency." While this sounds like a primarily green play, there are quality-of-life improvements too. For example, ICT can also optimize gear selection and shift points for safer highway merges, effectively implementing the equivalent of a "Sport Mode" driving profile when a little extra punch is called for.  Hyundai says the resulting decrease in shifts was significant; in some test scenarios, such as roads with lots of curves, the number of shifts executed by the transmission was reduced by almost half. As an added bonus, these vehicles also utilized their brakes less often (11%), which would reduce wear (and accompanying maintenance costs) over time.  ICT is somewhat future-proof, too, as it was developed to incorporate vehicle-to-vehicle (V2V) data should such networks improve down the line.  The announcement did not say when the new tech would reach customers, committing only to introducing the technology "on future vehicles." If we're betting, the smart money says it will probably on a new Genesis model and trickle down from there. Related Video:

Hyundai Sonata PHEV may be a game (and mind) changer

If you really, really want to consume volts instead of fuel on your way to work, school or shopping, you currently have just three options: pure EV, hydrogen fuel cell, or plug-in hybrid EV. Much as we love them, we all know the disadvantages of BEVs: high prices due to high battery cost (even though subsidized by their makers), limited range and long recharges. Yes, I know: six-figure (giant-battery) Teslas can deliver a couple hundred miles and Supercharge to ~80 percent in 10 minutes. But few of us can afford one of those, Tesla's high-voltage chargers are hardly as plentiful as gas stations, and even 10 minutes is a meaningful chunk out of a busy day. Also, good luck finding a Tesla dealership to fix whatever goes wrong (other than downloadable software updates) when it inevitably does. There still aren't any. Even more expensive, still rare as honest politicians, and much more challenging to refuel are FCEVs. You can lease one from Honda or Hyundai, and maybe soon Toyota, provided you live in Southern California and have ample disposable income. But you'd best limit your driving to within 100 miles or so of the small (but growing) number of hydrogen fueling stations in that state if you don't want to complete your trip on the back of a flatbed. That leaves PHEVs as the only reasonably affordable, practical choice. Yes, you can operate a conventional parallel hybrid in EV mode...for a mile or so at creep-along speeds. But if your mission is getting to work, school or the mall (and maybe back) most days without burning any fuel – while basking in the security of having a range-extender in reserve when you need it – your choices are extended-range EVs. That means the Chevrolet Volt, Cadillac ELR or a BMW i3 with the optional range-extender engine, and plug-in parallel hybrids. Regular readers know that, except for their high prices, I'm partial to EREVs. They are series hybrids whose small, fuel-efficient engines don't even start (except in certain rare, extreme conditions) until their batteries are spent. That means you can drive 30-40 (Volt, ELR) or 70-80 miles (i3) without consuming a drop of fuel. And until now, I've been fairly skeptical of plug-in versions of conventional parallel hybrids. Why?