A closure latch assembly, operable in one of a normal operating mode and an emergency mode, has a power release motor, a ratchet and a pawl, with the ratchet being moveable between a striker capture position and a striker release position and the pawl being moveable between a ratchet holding position, whereat ratchet is maintained in the striker capture position, and a ratchet release position, whereat ratchet is biased toward the striker release position. The power release motor is configured to operate using primary control signals received from a primary controller external to closure latch assembly during the normal operating mode of closure latch assembly and to operate using secondary control signals received from a secondary controller internal to closure latch assembly during the emergency operating mode of closure latch assembly and not operate using the secondary control signals received from secondary controller during the normal operating mode.

An electronically controlled door latch for a motor vehicle, the electronically controlled door latch being configured for operating in at least three different operation conditions including a normal operating condition, a sleep operating condition and a crash operating condition, and comprising a system basis chip configured for receiving a main supply voltage from a main power source of the motor vehicle during the normal operating condition and a backup supply voltage during the crash operating condition, an electric motor configured for actuating the electronically controlled door latch based on the main supply voltage (Vbatt) during the normal operating condition and on the backup supply voltage during the crash operating condition, and an electronic control unit configured, when being triggered by the system basis chip, for falling asleep during the sleep operating condition and for being wakening up during the normal operating condition and the crash operating condition and configured for controlling the electric motor during the normal operating condition and during the crash operating condition.

A motor vehicle lock for a flap of a motor vehicle. The motor vehicle lock is equipped with a lock catch for engaging with a closing part in a holding manner and a pawl which is paired with the lock catch and which locks an opening of the lock catch in the lowered position and releases the lock catch in a raised position, wherein the motor vehicle lock has an electric closing drive and a control assembly, wherein the control assembly actuates the closing drive in a closing routine so as to move the lock catch in the closing direction from a starting position. The control assembly actuates the closing drive in the closing routine so as to move the lock catch from the starting position into a delay position in order to carry out a delay action and then move the lock catch into the main closing position.

A single-door control circuit for a train includes a first circuit for controlling a single door when the train is in a sleep state, and a second circuit for controlling a door of the train when the train is in a wake-up activated state. When the train is in the sleep state, the second circuit is not electrified, the first circuit works, a door control unit is electrified by a storage battery power supply, and the single-door control is triggered by an electric unlocking switch or a single-door button; and when the train is in the wake-up activated state, the first circuit is cut off, the second circuit is electrified, and under a condition that a cab on a local side is activated and the train is at a zero velocity, the single-door control is only triggered by activating the single-door button in the cab.

A single-door control circuit for a train includes a first circuit for controlling a single door when the train is in a sleep state, and a second circuit for controlling a door of the train when the train is in a wake-up activated state. When the train is in the sleep state, the second circuit is not electrified, the first circuit works, a door control unit is electrified by a storage battery power supply, and the single-door control is triggered by an electric unlocking switch or a single-door button; and when the train is in the wake-up activated state, the first circuit is cut off, the second circuit is electrified, and under a condition that a cab on a local side is activated and the train is at a zero velocity, the single-door control is only triggered by activating the single-door button in the cab.

A closure latch assembly, operable in one of a normal operating mode and an emergency mode, has a power release motor, a ratchet and a pawl, with the ratchet being moveable between a striker capture position and a striker release position and the pawl being moveable between a ratchet holding position, whereat ratchet is maintained in the striker capture position, and a ratchet release position, whereat ratchet is biased toward the striker release position. The power release motor is configured to operate using primary control signals received from a primary controller external to closure latch assembly during the normal operating mode of closure latch assembly and to operate using secondary control signals received from a secondary controller internal to closure latch assembly during the emergency operating mode of closure latch assembly and not operate using the secondary control signals received from secondary controller during the normal operating mode.

A motor vehicle lock for a flap of a motor vehicle. The motor vehicle lock is equipped with a lock catch for engaging with a closing part in a holding manner and a pawl which is paired with the lock catch and which locks an opening of the lock catch in the lowered position and releases the lock catch in a raised position, wherein the motor vehicle lock has an electric closing drive and a control assembly, wherein the control assembly actuates the closing drive in a closing routine so as to move the lock catch in the closing direction from a starting position. The control assembly actuates the closing drive in the closing routine so as to move the lock catch from the starting position into a delay position in order to carry out a delay action and then move the lock catch into the main closing position.