Smart taps for a single-wire industrial safety system

What is claimed is: 1 . A smart tap device, comprising: a memory that stores executable components; a processor, operatively coupled to the memory, that executes the executable components, the executable components comprising: a safe state detection component configured to determine whether a safety device connected to a slave device terminal of the smart tap device is in a safe state; a pulse detection component configured to verify that a modulated pulse pattern of a safety signal received on an input terminal of the smart tap device corresponds to a defined pulse pattern; a safety signal relaying component configured to output the safety signal on an output terminal of the smart tap device in response to verification that the modulated pulse pattern corresponds to the defined pulse pattern and a determination that a safety function of the safety device is valid; and a message processing component configured to process a first input message received via the input terminal, to process a second input message received via the output terminal, to send a first output message via the input terminal, and to send a second output message via the output terminal. 2 . The smart tap device of claim 1 , wherein the safe state detection component is further configured to identify a type of the safety device connected to the slave device terminal, and to configure functionality of at least one input line and at least one output line of the slave device terminal based on the type of the safety device. 3 . The smart tap device of claim 1 , the executable components further comprising: a pulse generating component configured to generate the modulated pulse pattern; and a safety master mode component configured to enable the pulse generating component in response to detection of a terminator connected to the input terminal and to disable the pulse generating component in response to determining that the terminator is not connected to the input terminal. 4 . The smart tap device of claim 1 , wherein the second input message received via the output terminal indicates that at least one of a downstream safety device or a downstream safety tap device is active, and wherein the message processing component is further configured to, in response to receiving the second input message, send the second output message indicating that the smart tap device is active. 5 . The smart tap device of claim 3 , wherein the first output message indicates that the safety tap device is active and the first input message indicates that at least one of an upstream safety device or an upstream safety tap device is active, and wherein the executable components further comprise: a single-wire communication component configured to establish a safety channel sub-link between the smart tap device and the at least one of the upstream safety device or the upstream smart tap device in response to receipt of the first input message. 6 . The smart tap device of claim 3 , wherein the second input message received via the output terminal is an enumeration message containing an address of at least one of a downstream safety device or a downstream safety tap device, and wherein the executable components further comprises a device addressing component configured to, in response to receipt of the second input message, increment the address to yield an incremented address and assign the address to the smart tap device. 7 . The smart tap device of claim 6 , wherein the second output message comprises an enumeration response message containing at least the incremented address, an indication of whether the smart tap device is a last addressable device on a safety circuit, and an indication of whether the smart tap device is operating in the safety master mode. 8 . The smart tap device of claim 1 , wherein the second input message received via the output terminal comprises a request for device information, and wherein the message processing component is further configured to in response to determining that a target address contained in the second input message matches an address of the smart tap device, send the second output message via the input terminal, wherein the second output message contains device information obtained from the safety device via the slave device terminal, and in response to determining that the target address contained the second input message does not match the address of the smart tap device, output the second input message via the input terminal. 9 . The smart tap device of claim 1 , wherein the second input message received via the output terminal comprise a request to reset the safety device, and wherein the message processing component is further configured to: in response to determining that a target address contained the second input message matches an address of the smart tap device, momentarily remove power from a power supply line of the slave device terminal that provides power to the safety device. 10 . The smart tap device of claim 1 , wherein the smart tap device further comprises a power tap configured to connect to a power supply and to provide power from the power supply to a first power supply line associated with the input terminal, and wherein the first power supply line is electrically isolated from a second power supply line associated with the output terminal. 11 . The smart tap device of claim 1 , wherein the smart tap device is configured to detect a low voltage condition of the safety device attached to the slave device terminal, and wherein the second output message sent via the output terminal comprises a low voltage warning message sent in response to detection of the low voltage condition. 12 . The smart tap device of claim 1 , wherein the safety device is at least one of an emergency stop pushbutton, a light curtain device, a safety door switch, a safety mat device, an emergency pull-cord device, a laser scanner, a photoelectric sensor, or a safety contactor. 13 . A method for operating a smart tap device on a single-wire safety circuit, comprising: determining, by a smart tap device comprising a processor, whether a safety device connected to a slave device terminal of the smart tap device is in a safe status; comparing, by the smart tap device, a pulse pattern carried by a safety signal received on an input terminal of the smart tap device with a defined pulse pattern; in response to determining that the pulse pattern matches the defined pulse pattern based on the comparing and that the safety device is in the safe status, outputting the safety signal via an output terminal of the smart tap device; processing, by the smart tap device, a first input message received via the input terminal; processing, by the smart tap device, a second input message received via the output terminal; sending, by the smart tap device, a first output message via the input terminal; and sending, by the smart tap device, a second output message via the output terminal. 14 . The method of claim 13 , further comprising: identifying, by the smart tap device, a type of the safety device connected to the slave device terminal; and configuring, by the smart tap device, functionality of at least one input line and at least one output line of the slave device terminal based on the type of the safety device. 15 . The method of claim 13 , wherein the processing the second input message received via the output terminal comprises: in response to determining that the second input message is a request for device information and that a target address contained the second input message matches an address of the s