Mix on demand smart backpack sprayer

What is claimed is: 1. A backpack sprayer system comprising: a) a mounting bracket including a battery receiving fixture configured to removably receive a battery therein; b) a first tank mounted to the mounting bracket and configured to hold a diluent; c) a second tank mounted to the mounting bracket and configured to hold a liquid concentrate; d) a mixing manifold mounted to the mounting bracket, wherein the mixing manifold has a first inlet fitting configured to receive a fixed amount of diluent from the first tank and a second inlet configured to receive a selectively adjustable amount of liquid concentrate from the second tank, whereby the fixed amount of diluent and selectively adjustable amount of concentrate are combined to form a mixed solution, and wherein the mixing manifold includes a mixed solution outlet; e) a positive displacement pump mounted to the mounting bracket, wherein the positive displacement pump includes a suction port fluidly coupled to the mixed solution outlet and a pressure port configured to fluidly couple with a spray device; and f) a control unit mounted on the mounting bracket, wherein the control unit is configured to receive power from the battery. 2. The sprayer system of claim 1 wherein the positive displacement pump is a diaphragm pump. 3. The sprayer system of claim 1 wherein the mixing manifold further includes a disc defining a first annular series of spaced-apart flow-metering holes, wherein successive respective flow-metering holes have an increasing hole diameter, wherein the disc is adapted to rotate to align a selected flow-metering hole of the annular series of spaced-apart holes in fluid communication with the second inlet to thereby define the selectively adjustable amount of concentrate in the mixed solution. 4. The sprayer system of claim 3 wherein the disc further defines a second annular series of spaced-apart stop holes, wherein each respective stop hole within the second annular series radially aligns with a respective flow-metering hole of the first annular series, wherein a single respective stop hole receives a stop member when the selected flow-metering hole is aligned with the second inlet. 5. The sprayer system of claim 4 wherein the stop member is a ball bearing biased to engage the disc, wherein a diameter of the ball bearing is slightly larger than a diameter of each of the stop holes. 6. The sprayer system of claim 1 wherein the first inlet fitting further includes a check valve configured to prevent backflow of the mixed solution toward the first tank. 7. The sprayer system of claim 1 further comprising: g) a battery removably secured within the battery receiving fixture, wherein the battery is operably coupled to the positive displacement pump and control unit whereby the battery is configured to provide power to the positive displacement pump and control unit when the sprayer system is in an on configuration. 8. The sprayer system of claim 1 wherein the second tank is fixedly secured within the first tank, whereby an open volume defined by the second tank is fluidly isolated from an open volume defined by the first tank. 9. The sprayer system of claim 8 wherein the second tank includes a concentrate fitting configured to receive a first end of a concentrate tube, whereby a second end of the concentrate tube is coupled to the second inlet of the mixing manifold, and wherein the first tank includes a diluent fitting configured to receive a first end of a diluent tube, whereby a second end of the diluent tube is coupled to the first inlet fitting of the mixing manifold. 10. The sprayer system of claim 1 wherein the second tank includes a liquid level gauge. 11. The sprayer system of claim 1 wherein the control unit comprises: a) a printed circuit board including a processor and a memory, wherein the processor is configured to perform one or more functions including power on/power off, regulating power to the positive displacement pump so as to vary output pressure of the mixed solution, monitoring and displaying a battery charge level, and indicating pacing; b) a control panel interface coupled to the printed circuit board, wherein the control panel interface includes one or more control buttons whereby a user controls the processor functions.