LED tube lamp

What is claimed is: 1. A ballast by-pass light-emitting diode (LED) tube lamp having at least a first and second external connection terminal each connected to an opposite side of the ballast by-pass LED tube lamp, comprising: a driving circuit, electrically connected to the first and second external connection terminals for receiving an external driving signal and configured to convert the external driving signal into a lamp driving signal, wherein the external driving signal has a frequency substantially equal to 50 Hz or 60 Hz; an LED module, electrically connected to the driving circuit, for receiving the lamp driving signal; a current limiting circuit, electrically connected between the at least one of the first and second external connection terminals and the LED module, and configured to limit a current flowing through the external connection terminals and the LED module to less than a predetermined value when being enabled and conduct a current above the predetermined value when being disabled; and an electric shock detection circuit, configured to temporarily turn on a detection path of the ballast by-pass LED tube lamp for 10 μs to 30 μs and detect an equivalent impedance of the detection path being turned on, wherein the electric shock detection circuit controls the enable/disable state of the current limiting circuit according to the equivalent impedance. 2. The ballast by-pass LED tube lamp according to claim 1 , wherein when the equivalent impedance is greater than a reference value, the electric shock detection circuit determines a risk of electric shock is detected and enables the current limiting circuit. 3. The ballast by-pass LED tube lamp according to claim 1 , wherein when the equivalent impedance is lesser than a reference value, the electric shock detection circuit determines the risk of electric shock is not detected and disables the current limiting circuit. 4. The ballast by-pass LED tube lamp according to claim 1 , wherein a current path is formed between the external connection terminals and the LED module, and the electric shock detection circuit comprises: a transistor, having a first terminal, a second terminal, and a control terminal receiving a pulse signal; a first resistor, electrically connected between the current path and the first terminal of the transistor; and a second resistor, electrically connected between the second terminal of the transistor and a ground, wherein the transistor, the first resistor, and the second resistor forms the detection path. 5. The ballast by-pass LED tube lamp according to claim 4 , wherein when the risk of electric shock is not detected, the equivalent impedance is equal to a summation of the resistance of the transistor, the first resistor and the second resistor. 6. The ballast by-pass LED tube lamp according to claim 4 , wherein when the risk of electric shock is detected, a resistance equivalent to a human body resistor is connected to the transistor, the first resistor, and the second resistor in series, and the equivalent impedance equals to a summation of the resistance of the transistor, the first resistor, the second resistor and the resistance equivalent to the human body resistor. 7. The ballast by-pass LED tube lamp according to claim 1 , wherein the entire detection path is part of a current path between the first and second external connection terminals and including the LED module. 8. The ballast by-pass LED tube lamp according to claim 1 , wherein the driving circuit comprises: a constant current controller, configured to generate a lighting control signal having a pulse waveform; a power switch, electrically connected to the constant current controller and configured to be switched according to the lighting control signal; and a conversion circuit, electrically connected to the power switch and configured to absorb and release power in response to the switching state of the power switch so as to generate the lamp driving signal. 9. The ballast by-pass LED tube lamp according to claim 8 , wherein the current limiting circuit is integrated into the power switch. 10. The ballast by-pass LED tube lamp according to claim 8 , wherein the electric shock detection circuit comprises: a pulse generating circuit, configured to generate a pulse signal for turning on or off the detection path; and a detection circuit, configured to detect a signal, for indicating the equivalent impedance, on the detection path. 11. The ballast by-pass LED tube lamp according to claim 10 , wherein the pulse generating circuit is integrated into the constant current controller. 12. The ballast by-pass LED tube lamp according to claim 8 , wherein the driving circuit is a non-isolated power converter. 13. The ballast by-pass LED tube lamp according to claim 12 , wherein the driving circuit further comprises: a feedback circuit, configured to generate a feedback signal by sampling a magnitude of current passing through the power switch and transmit the feedback signal to the constant current controller, wherein the constant current controller modulates, according to the feedback signal, a pulse width of the lighting control signal to maintain the lamp driving signal at a predetermined current value. 14. A ballast by-pass light-emitting diode (LED) tube lamp, comprising: a lamp tube; two end caps, respectively disposed on opposite sides of the lamp tube, wherein each end cap has an external connection terminal for receiving an external driving signal having a frequency substantially equal to 50 Hz or 60 Hz; a power supply module, electrically connected to the external connection terminals and configured to generate a lamp driving signal based on the external driving signal; and an LED module, disposed in the lamp tube and electrically connected to the power supply module, for receiving the lamp driving signal, wherein the power supply module comprises: a current limiting circuit, electrically connected between at least one of the external connection terminals and the LED module, and configured to limit a current flowing through the external connection terminals and the LED module to less than a predetermined value when being enabled and to conduct a current above the predetermined value when being disabled; and an electric shock detection circuit, configured to detect a signal on a detection path of the ballast by-pass LED tube lamp and control the enable/disable state of the current limiting circuit according to a detection result, wherein at least some electronic components of the power supply module are connected via a power circuit board, and the power circuit board is disposed in at least one of the end caps parallel to an axial direction of the lamp tube. 15. The ballast by-pass LED tube lamp according to claim 14 , wherein the electric shock detection circuit monitors the signal on the detection path in real time during the ballast by-pass LED tube lamp being powered up. 16. The ballast by-pass LED tube lamp according to claim 14 , wherein when a current passing through the detection path is detected to be less than a reference value, the electric shock detection circuit determines the by-pass LED tube lamp is in an abnormal state, so that the electric shock detection circuit enables the current limiting circuit. 17. The ballast by-pass LED tube lamp according to claim 16 , wherein the current limiting circuit is preset to be in the disable state and is switched to the enable state when the abnormal state is determined. 18. The ballast by-pass LED tube lamp according to clai