The universal drive from
Blemo - for all applications
with synchronous motors and
ER24 combines the successful ER23 and ER51 series. This new product series operates synchronous and asynchronous motors.
With its outstanding functionality, the ER24 can be used for all tasks in mechanical and plant engineering. The extremely slim ER24B design is space-saving up to 4.0 kW. Flexible mounting options: vertical, side by side or horizontal. Integrated safety functions: STO, SLS, SS1, SMS, GDL. Programmable function blocks allow the execution of e.g. boolean and arithmetic functions, timers, counters, comparators and short automation sequences. Integrated synchronous motor function in open loop mode.
Without additional external components
STO: Torque safely disengaged
Free run-out to standstill by separating the motor torque.
SLS: Safely reduced speed
Braking, maintaining a predefined speed.
SS1: Safe stop
Stopping the motor according to a predefined, safely monitored ramp. Checks if the motor is completely stopped or has reached a minimum predefined speed, then activates the STO function.
SMS: Safe monitoring of two motor speeds
STO is activated when the limit speeds are reached.
GDL: Safe release of safety guards
Safe control of safety gates with delay of the safe output.
Safety Integrity Level (SIL 1, 2 or 3) in accordance
IEC 61508 (part 1 and 2)
Performance Level (PL e) according to
ISO 13849-1/-2 Category 3
The new control algorithm up to 599 Hz for permanently excited synchronous motors without feedback ensures optimized performance and easy connection of the motors. The sensorless vector control provides the full torque from the lowest speeds. The patented pole wheel position measurement supports all synchronous motor types and also stepper motors.
1.graphic display via a Modbus cable with the Modbus interface
(RJ45 connector) on the ER24 frequency inverter.
2.connect the mains voltage
3. press "ESC" repeatedly until the main menu appears
4.Select item "4 Open / Save as" and press "OK
5.Select item "4.1 Copy to inverter" and press "OK
6. select the desired data record (e.g. "File 1") and click "OK
7 The submenu "Download group" appears. Now "All"
and press "OK".
8 The display shows: "Check the connection to the
Inverter" "ESC = Cancel OK=Apply", Now press "OK".
9 After error-free saving, the display shows: "Transfer
Complete" "OK OR ESC TO CONTINUE"
Now press "ESC" or "OK".
10.by pressing "ESC" several times to the starting point (e.g.
To achieve electromagnetic compatibility, the inverter must be operated with a built-in or external radio interference filter.
If shielded cables are used between the inverter and the motor, the shield must be connected to earth at both ends. Cable interruptions should be avoided if possible. If it is necessary to separate the cable, e.g. to install a motor contactor, the cable shielding must be connected through as directly as possible. It is important to ensure that the lowest possible HF impedance is achieved.
The shorter the cable, the lower the radio interference and leakage current. The maximum possible cable lengths must be taken into account.
To avoid interference with the control inputs, control cables should always be shielded. The shield must be connected to the cable clamp provided on the inverter. If the shield is also connected to a control device, care must be taken to ensure that the ground points have the same potential.
Control cables should not cross power cables if possible. Where this cannot be avoided, a right-angled crossing is recommended.
Separate laying of control and power cables should be aimed for. If the cables must be laid parallel, e.g. on the same cable route, the largest possible distance (> 20 cm) should be selected.
The shielding of the laid cables should have a low HF impedance if possible. Copper braiding is therefore preferable to steel braiding.
The RF contact resistance at the connection points between shielding and housing must be kept as low as possible. Dirt, paint and insulation residues on the housing and shielding in the area of the connections must therefore be removed. In principle, the cable clamps or crimp connections provided for this purpose should be used to connect the shielding. It is advantageous to use earthing cable glands.
The shielding should be connected to the housing as close as possible to the cable terminals. Longer, free cable ends act as antennas.
With unscreened cables, the cable wires should be twisted and output filters should be used.
Assuming that the ER24 is in the factory setting, the following are possible in the stopped
state (display: rdY) the following settings:
1. press ENT and select the COnF mode, then press ENT again
2. first select the item "FULL", scroll down to the parameter LAC and this
to AdV or EPr, press >2s ENT to save, then press ESC,
until LAC appears on the display again.
3. Scroll to the CtL- control menu, press ENT, find parameter FR2 and press
4. set the parameter rFC to FR2 in the Control CtL- menu
5. call up the menu Application functions FUn- and select the parameter UPd- there
6. now call up the parameter "USP" and enter a "+ speed" for the assignment "+ speed".
Select free input e.g. LI5
7. finally, call up the "dSP" parameter and select a free
Select input e.g. LI6
Via input DI5 the speed is increased and via input DI6 the speed is
1. Call up parameter FrY [PARAMETER GROUP] and select ALL, save with ENT and
then press ESC to exit the parameter.
2. Call parameter GFS [GOTO WORK SETTING] and select YES, then press the ENT key at least
Press and hold for 2 seconds to save.