Membrane digital analog switches

What is claimed is: 1. A switch for an industrial machine control where a positive on step is required before analog functionality of an industrial machine is engaged, the switch comprising: an input button surface adapted to receive an input pressure from a user; a digital switch adapted to generate a digital switch activation signal when the received pressure on the input button surface is greater than or equal to a specified digital pressure threshold; an analog switch adapted to generate an analog switch activation signal when the received pressure on the input button surface is greater than or equal to a specified analog pressure threshold; and a controller configured to determine a positive on step in response to receiving the digital switch activation signal, and in response to determining the positive on step, to implement one or more analog functions of the industrial machine according to the received analog switch activation signal, wherein the one or more analog functions include one or more of controlling a speed or flow rate of the industrial machine; wherein the specified analog pressure threshold is greater than the specified digital pressure threshold. 2. The switch of claim 1 , wherein: the digital switch activation signal is a binary digital signal; and/or the analog switch activation signal is variable and corresponds to an analog sensed value of the received pressure on the input button surface; and/or the digital switch is positioned below the input button surface. 3. The switch of claim 1 , wherein the analog switch includes a force-sensing resistor. 4. The switch of claim 3 , wherein the force-sensing resistor includes a non-linear resistance characteristic where a resistance of the force-sensing resistor decreases non-linearly as pressure on the input button surface is increased. 5. The switch of claim 4 , wherein the controller is configured to measure the analog switch activation signal, and to determine the received input pressure on the input button surface according to the measured analog switch activation signal. 6. A switch comprising: an input button surface adapted to receive an input pressure from a user; a digital switch adapted to generate a digital switch activation signal when the received pressure on the input button surface is greater than or equal to a specified digital pressure threshold; an analog switch adapted to generate an analog switch activation signal when the received pressure on the input button surface is greater than or equal to a specified analog pressure threshold; and a controller configured to measure the analog switch activation signal, and to determine the received input pressure on the input button surface according to the measured analog switch activation signal; wherein the specified analog pressure threshold is greater than the specified digital pressure threshold; wherein the analog switch includes a force-sensing resistor. wherein the force-sensing resistor includes a non-linear resistance characteristic where a resistance of the force-sensing resistor decreases non-linearly as pressure on the input button surface is increased; and wherein the controller is configured to determine a change in slope of the analog switch activation signal, and compare the change in slope to the non-linear resistance characteristic of the force-sensing resistor to determine the received input pressure on the input button surface. 7. The switch of claim 3 , wherein the analog switch including the force-sensing resistor is positioned below the digital switch with respect to the input button surface. 8. A switch comprising: an input button surface adapted to receive an input pressure from a user; a digital switch adapted to generate a digital switch activation signal when the received pressure on the input button surface is greater than or equal to a specified digital pressure threshold; and an analog switch adapted to generate an analog switch activation signal when the received pressure on the input button surface is greater than or equal to a specified analog pressure threshold; wherein the specified analog pressure threshold is greater than the specified digital pressure threshold; wherein the analog switch includes a force-sensing resistor; and wherein: the digital switch is a first digital switch; the switch further comprises a second digital switch positioned below the first digital switch with respect to the input button surface; and the analog switch including the force-sensing resistor is coupled in series with the second digital switch. 9. The switch of claim 8 , further comprising a controller configured to: detect a second digital switch activation signal when the second digital switch is closed; measure an initial resistance of the force-sensing resistor in response to detecting the second digital switch activation signal; and set the measured initial resistance as a calibration value for measuring an analog force- sensing resistor signal corresponding to the resistance of the force-sensing resistor to determine the received input pressure on the input button surface. 10. A switch comprising: an input button surface adapted to receive an input pressure from a user; a digital switch adapted to generate a digital switch activation signal when the received pressure on the input button surface is greater than or equal to a specified digital pressure threshold; and an analog switch adapted to generate an analog switch activation signal when the received pressure on the input button surface is greater than or equal to a specified analog pressure threshold; wherein the specified analog pressure threshold is greater than the specified digital pressure threshold; and wherein the input button surface and the digital switch define a tactile switch including a metal dome, the input button surface comprises an overlay contacting a first side of the metal dome, and a second side of the metal dome opposite the first side is positioned to contact an electrical conductor of the digital switch in response to the received pressure on the overlay contacting the first side of the metal dome. 11. A crane control for a crane having a stepless drive, the crane control comprising the switch of claim 1 and configured such that the received pressure on the input button surface is usable for controlling speed of the crane at different speeds that correspond to different analog sensed values of different received pressures on the input button surface, whereby the speed of the crane is controllable by adjusting the received pressure on the input button surface to thereby change the corresponding analog sensed value. 12. The switch of claim 1 , wherein the one or more analog functions of the industrial machine include at least one or more of: controlling a speed of a crane or a vehicle at different speeds that correspond to different analog sensed values of different received pressures on the input button surface; and/or controlling a flow rate of a concrete pump or a pressure washer where the flow rate is proportional to the received pressure on the input button surface. 13. The switch of claim 1 , wherein the switch is a membrane digital analog switch. 14. A keypad including at least one switch according to claim 1 . 15. The switch of claim 1 , wherein the one or more analog functions of the industrial machine include controlling a speed of a crane or a vehicle at different speeds that correspond to different analog sensed values of different received pressures on the input button surface. 16. The switch of claim 1 , wherei