This Volt Cracow Heated Vest is rechargeable and provides instant heat with the push of a button. Instead of piling on layers when the temperature drops, slip on this battery powered heated vest with our patented Zero Layer® Heat System and stay warm for hours. The Zero Layer Heat System is slim and fits close to your body which optimizes heat transfer for an ultimate core warming experience. This lightweight quilted nylon garment utilizes a 3-zone heating system with two panels in the chest and a large panel on the back. By combining the heat system with an added 80 grams of high retention insulation, we can trap in all the warmth you need.
Here is a review we have received on the Men's Cracow Heated Vest. "I use it for everything sitting in the basement working, sledding, and the best thing I use it for is SCUBA diving in my drysuit! Works great and extends my cold water dives, I also bought the 5400mha battery which on low is good all day. Would give it 6 stars if I could."
The Cracow heated vest is powered by a rechargeable lithium-ion battery pack with built-in microprocessor controller. This 4-level controller allows you to regulate the temperature output for your desired thermal comfort. The 7.4 Volt lithium-ion battery is very small and lightweight and packs a huge punch for hours of heat. Stay warm this winter with the warmest vest in the Volt lineup, stay warm with the Volt Cracow Heated Vest.
Approximate Battery Run Time per Power Level
100% High – 2.5 hours
75% Med/High – 3.5 hours
50% Medium – 5 hours
25% Low – 10+ hours
Ultra soft fine denier nylon shell quilted with 80 grams of high retention insulation
4 Panel heating system heats your core in 3 zones (heat pads on both sides of the chest and an oversized back pad)
Safe & Durable 7V Heating Technology
Includes a powerful 7.4v 3350mAh rechargeable lithium battery (VB730Y) & charger
Built-in 4 level microprocessor controller to select desired heat output
Provides over 150 degrees of soothing heat on high for 2.5 hours
Zero Layer® heat system eliminates bulk while providing more efficient heat transfer.