Method for self-testing a monitoring device monitoring an integrity status of a suspension member arrangement in an elevator

The invention claimed is: 1. A method for self-testing a monitoring device monitoring an integrity status of a suspension member arrangement in an elevator, wherein the monitoring device generates electric voltages and applies the electric voltages to electrically conductive cords in suspension members of the suspension member arrangement, and wherein the monitoring device detects a deterioration in the integrity status based on modifications in the applied electric voltages upon transmission through the cords, the method comprising the steps of: modifying the generated electric voltages to systematically induce modifications in the applied electric voltages which modified applied electrical voltages upon transmission through the cords would be interpreted by the monitoring device as indicating the deterioration in the integrity status; verifying whether the deterioration in the integrity status is correctly detected; and initiating a self-test-failure-action in the elevator when the deterioration in the integrity status is not correctly detected. 2. The method according to claim 1 wherein the monitoring device generates the electric voltages as first and second alternating voltages being phase-shifted with respect to each other and analyzes a neutral point voltage resulting upon applying the first and second alternating voltages to a first group of the cords and a second group of the cords respectively in the suspension members of the suspension member arrangement respectively, transmission of the first and second alternating voltages through the first and second groups of cords and superimposing the transmitted first and second alternating voltages, and wherein the monitoring device detects a first type of deterioration in the integrity status based on the analysis of the neutral point voltage, the method including the steps of: modifying the generated first and second alternating voltages to induce modifications in the neutral point voltage upon transmission through the cords that would be interpreted by the monitoring device as indicating the first type of deterioration in the integrity status; verifying whether the first type of deterioration in the integrity status is correctly detected; and initiating the self-test-failure-action in the elevator when the first type of deterioration in the integrity status is not correctly detected. 3. The method according to claim 2 including: modifying the generated first and second alternating voltages by temporarily switching-off the first alternating voltage while generating the second alternating voltage and verifying whether the first type of deterioration in the integrity status is correctly detected; subsequently modifying the generated first and second alternating voltages by temporarily switching-off the second alternating voltage while generating the first alternating voltage and verifying whether the first type of deterioration in the integrity status is correctly detected; and initiating the self-test-failure-action in the elevator when the first type of deterioration in the integrity status is not correctly detected for both modifications. 4. The method according to claim 2 wherein the monitoring device measures resulting voltages after a voltage drop along the cords in the suspension members of the suspension member arrangement upon applying the first and second alternating voltages, and wherein the monitoring device detects a second type of deterioration in the integrity status based on a detected modification in the measured resulting voltages, the method including the steps of: modifying the generated first and second voltages to induce modifications in the resulting voltages that would be interpreted by the monitoring device as indicating the second type of deterioration in the integrity status; verifying whether the second type of deterioration in the integrity status is correctly detected; and initiating the self-test-failure-action in the elevator when the second type of deterioration in the integrity status is not correctly detected. 5. The method according to claim 4 including modifying the generated first and second alternating voltages by temporarily reducing a magnitude of the generated first and second alternating voltages to a value which is lower than a resulting voltage value that would be interpreted by the monitoring device as indicating the second type of deterioration in the integrity status. 6. The method according to claim 1 wherein the monitoring device measures resulting voltages after a voltage drop along the cords in the suspension members of the suspension member arrangement upon application of the generated electric voltages, and wherein the monitoring device detects a specific type of deterioration in the integrity status based on a detected modification in the measured resulting voltages, the method including the steps of: modifying the generated electric voltages to induce modifications in the resulting voltages that would be interpreted by the monitoring device as indicating the specific type of deterioration in the integrity status; verifying whether the specific type of deterioration in the integrity status is correctly detected; and initiating a self-test-failure-action in the elevator when the specific type of deterioration in the integrity status is not correctly detected. 7. The method according to claim 6 including modifying the generated electric voltages by temporarily reducing a magnitude of the generated electric voltages to a value which is lower than a resulting voltage value that would be interpreted by the monitoring device as indicating the specific type of deterioration in the integrity status. 8. The method according to claim 1 including periodically performing the method steps during operation of the monitoring device. 9. The method according to claim 1 including performing the method steps upon an occurrence of predetermined events during operation of the monitoring device. 10. A monitoring device for performing the method according to claim 1 to monitor the integrity status of the suspension member arrangement in the elevator, the monitoring device comprising: a voltage generator arrangement for generating the generated electric voltages and being connected to the cords in the suspension members of the suspension arrangement by input circuitry, output circuitry, input connectors and output connectors for applying the generated electric voltages to cords; a voltage analyzer arrangement for detecting the deterioration in the integrity status based on the modifications in the generated electric voltages transmitted through the cords; and a controller component connected to the voltage generator arrangement and to the voltage analyzer arrangement for controlling operation of the monitoring device. 11. The monitoring device according to claim 10 wherein the voltage generator arrangement generates the electric voltages as first and second alternating voltages being phase-shifted with respect to each other and the voltage analyzer arrangement analyzes a neutral point voltage resulting upon applying the first and second alternating voltages to a first group of the cords and a second group of the cords respectively in the suspension members of the suspension member arrangement respectively, transmission of the first and second alternating voltages through the first and second groups of cords and superimposing the transmitted first and second alternating voltages, and wherein the monitoring device detects a specific type of deterioration in the integrity status based on the analysis of the neutral point voltage by: modifying the generated first and second alternating voltages to