Wireless charging pad for power tool battery packs

What is claimed is: 1 . A charging system comprising: a plurality of battery packs, each of the plurality of battery packs including a receiving antenna configured to convert an alternating current power to a charging current; and a wireless charger including: an alternating current to direct current converter configured to provide direct current power, a transmitter antenna configured to convert direct current power received from the alternating current to direct current converter to the alternating current power and transmit the alternating current power to at least one of the plurality of battery packs, an impedance matching network coupled to the controller and the transmitter antenna, the impedance matching network configured to set an impedance of the transmitter antenna; a communication circuit configured to transmit communication signals to and receive communication signals from a mobile device and each of the plurality of battery packs, and a controller including an electronic processor and a memory, the controller configured to: determine a battery pack type of each of the plurality of battery packs based on communication signals received from each of the plurality of battery packs, determine an impedance of each of the plurality of battery packs based on the respective battery pack types, and control the impedance matching network to match the impedance of at least one of the plurality of battery packs. 2 . The charging system of claim 1 , wherein the wireless charger is a charging pad. 3 . The charging system of claim 2 , wherein the charging pad is integrated within a toolbox. 4 . The charging system of claim 1 , wherein the wireless charger includes one or more contours, each of the one or more contours configured to receive one of the plurality of battery packs. 5 . The charging system of claim 4 , wherein the wireless charger includes three contours. 6 . The charging system of claim 1 , wherein the wireless charger further includes: a first transmission path for transmitting the alternating current power to one of the plurality of battery packs, and a second transmission path for transmitting control information to the one of the plurality of battery packs. 7 . The charging system of claim 1 , wherein the wireless charger, using the communication circuit, transmits at least one selected from a group consisting of an input power, an output power, a battery pack capacity, and a charge time to the mobile device. 8 . The charging system of claim 1 , wherein the wireless charger further includes a charging station configured to charge a Qi-compatible device. 9 . The charging system of claim 1 , wherein the wireless charger further includes one or more USB inputs. 10 . The charging system of claim 1 , wherein: the impedance matching network includes a switching network. 11 . A charging system comprising: a battery pack including a receiving antenna configured to convert an alternating current field to a charging current, the receiving antenna having a complex impedance; and a wireless charger including: an alternating current to direct current converter configured to provide direct current power, a transmitter antenna configured to convert direct current power received from the alternating current to direct current converter to an alternating current power and generate the alternating current field, an impedance matching network coupled to the transmitter antenna, the impedance matching network configured to set a complex impedance of the transmitter antenna, a communication circuit configured to transmit communication signals to and receive communication signals from the battery pack, and a charger controller configured to: determine a battery pack type of the battery pack based on a communication signal received from the battery pack, determine the complex impedance of the receiving antenna based on the battery pack type, control the impedance matching network to match the complex impedance of the receiving antenna, and provide the alternating current power to the transmitting antenna to charge the battery pack. 12 . The charging system of claim 11 , wherein the receiving antenna includes a pair of electrostatic plates. 13 . The charging system of claim 12 , wherein the charger controller is configured to: detect at least one selected from the group consisting of a size and a composition of the pair of electrostatic plates; and determine the charging parameter based on the at least one selected from the group consisting of the size and the composition of the pair of electrostatic plates. 14 . The charging system of claim 11 , wherein the receiving antenna includes an inductive coil. 15 . The charging system of claim 14 , wherein the charger controller is configured to: detect at least one selected from the group consisting of a size and a material of the inductive coil; and determine the charging parameter based on the at least one selected from the group consisting of the size and the material of the inductive coil. 16 . A method of wirelessly charging a battery pack for a power tool, the method comprising: receiving, at a wireless charger, the battery pack; determining, with a controller, a battery pack type for the battery pack based on a communication signal received from the battery pack; determining, with the controller, an impedance of the battery pack based on the battery pack type, controlling, with the controller, an impedance matching network to adjust an impedance of a transmitting antenna to match the impedance of the battery pack; and providing, with the controller, power to the transmitting antenna of the wireless charger to charge the battery pack based on the charging parameter. 17 . The method of claim 16 , wherein controlling the impedance matching network includes: connecting one or more of a resistor, an inductor, and a capacitor to the transmitting antenna of the wireless charger. 18 . The method of claim 16 , wherein the impedance is based on one or more physical parameters of a receiving antenna of the battery pack.