Analogue Input, -fold, MDRC, GH Q605 005 R0001 The analogue input is a DIN rail mounted device for insertion in the distribution board. It is connected to the EIB via the bus connecting terminal supplied. The analogue input has inputs for connecting external physical sensors with output signals in ranges of 0/ to 20 ma or 0 to 5/10 V. By connecting the 230 V auxiliary supply, the analogue input is able to provide active sensors with 2 V DC at a max. 100 ma. The device requires a power supply of 230 V. SK 0032 B 98 Technical Data Power supply EIB 2 VDC, via the bus line Auxiliary supply 230 VAC +10% / -15%, 50 60 Hz Power consumption max. VA Operating and display elements Red LED and push button for assigning the physical address Inputs analogue inputs Input signals 0 1 V 0 5 V 0 10 V 0 20 ma 20 ma Input resistance ca. 18 kohm at strain measurement ca. 100 Ohm at strain measurement Outputs 1 for supplying the sensors Nominal voltage 2 V DC, Nominal current max. 100 ma Connections EIB bus connecting terminals 230 V auxiliary supply 2 screw terminals Inputs screw terminals Power supply for sensors 2 x 2 screw terminals Wire range 0.25 mm 2 Type of protection IP 20, EN 60 529 Protection class II Ambient temperature range Operation - 5 C 5 C Storage - 25 C 55 C Transport - 25 C 70 C Design modular installation device, prom Housing, colour Plastic housing, grey Mounting on 35 mm mounting rail, DIN EN 50022 Dimensions 90 x 72 x 6 mm (H x W x D) Mounting depth/width 68 mm / modules at 18 mm Weight 0.39 kg Certification CE norm EIB-certified in accordance with the EMC guideline and the low voltage guideline Page 1 of 6 AES_1_TD_EN_V1-1 2CDC 50 010 D0201
Analogue Input, -fold, MDRC, GH Q605 005 R0001 Application programs Number of Max. number of Max. number of communication objects group addresses associations Switch Threshold Value Value change Cycl. /1 8 8 8 Wiring diagram AE/S_1 1 Programming LED 3 Power supply and inputs 2 Programming push button for the sensors Power supply 5 Bus connection Page 2 of 6 AES_1_TD_EN_V1-1 2CDC 50 010 D0201
Analogue Input, -fold, MDRC, GH Q605 005 R0001 Switch Threshold Value Value change Cycl. /1 Selection in ETS2 The application program offers each of the four inputs the same parameters and communication objects. The range of the input signal can be selected for each input, independent of the other inputs. The voltage ranges 0 1 V, 0 5 V and 0 10 V and the current ranges 0 20 ma and 20 ma are therefore available. Value Apart from being able to send switching telegrams, each input can also output the value of the current input signal. The output of this value can be carried out with a resolution of either 8 or 16 bit. The input has then a 1 byte or 2 byte communication object depending on this setting. ABB Input Analogue input, -fold Switch Threshold value Each input has two threshold values. These values can be set in 1% steps from 0% to 100% of the selected input signal range. All four inputs have a 1 bit communication object each that can send On or Off telegrams when there is an overrange or underflow in the two threshold values. If the input uses a 2 byte communication object, it has a characteristic curve for adapting to the project and to the input signal range that is actually used. This characteristic curve is specified by the settings in the parameters Base for 0% of the input signal, Base for 100% of the input signal and Factor. The preset options Base for 0 %: 0 Base for 100 %: 1000 Factor: 0,01 produce the following range of values with an input signal of 0 10 V: at 0 V: 0 * 0.01 = 0 at 10 V: 1000 * 0.01 = 10 With a 1 byte communication object, the sent value for 0% or 100% of the input signal can be selected between 0 and 255. Page 3 of 6 AES_1_TD_EN_V1-1 2CDC 50 010 D0201
Analogue Input, -fold, MDRC, GH Q605 005 R0001 Value change Cyclic The user can use two different rules to determine when the analogue input sends telegrams. One option is that the analogue input only sends a telegram with a new value if the current input signal has changed by a specified value. The size of the necessary change is then entered as a percentage value related to the maximum input signal. There is also the option of using a sending delay in order to limit the number of telegrams. In this way the analogue input only sends if the changed input signal exists for a specified period. Temporary signal peaks are thus filtered out. In the event of a failure of the bus voltage and / or auxiliary supply, the analogue input does not send any telegrams. In addition the connected sensors are not supplied with voltage in the event of a failure in the auxiliary voltage. The behaviour on bus voltage recovery can be defined in the parameters. The 8 bit or 16 bit values are sent either immediately with an adjustable delay or only according to the further settings for value change and cyclical sending. The switching telegrams are either sent immediately or only according to the further settings for an overrange or underflow in the threshold values or for cyclical sending. The communication objects for the input values and the threshold values can repeat the telegrams cyclically. All the inputs that are to send cyclically use a common time base and a unique time factor for setting the telegram repetition rate. Communication objects for 16 bit input value Communication objects for 8 bit input value No. Type Object name Function 0 2 byte Input 1 Telegr. value 1 1 bit Input 1 Telegr. switch 2 2 byte Input 2 Telegr. value 3 1 bit Input 2 Telegr. switch 2 byte Input 3 Telegr. value 5 1 bit Input 3 Telegr. switch 6 2 byte Input Telegr. value 7 1 bit Input Telegr. switch No. Type Object name Function 0 1 byte Input 1 Telegr. value 1 1 bit Input 1 Telegr. switch 2 1 byte Input 2 Telegr. value 3 1 bit Input 2 Telegr. switch 1 byte Input 3 Telegr. value 5 1 bit Input 3 Telegr. switch 6 1 byte Input Telegr. value 7 1 bit Input Telegr. switch Page of 6 AES_1_TD_EN_V1-1 2CDC 50 010 D0201
Analogue Input, -fold, MDRC, GH Q605 005 R0001 Parameters The default setting for the values is printed in bold type. Separate for all outputs: Time base for cyclic sending 130 ms / / 1s / / 1.2h Input 1 0 1 V 0 5 V 0 10 V 0 20 ma 20 ma no function only if input has a function: Factor for cyclic sending 100 Input 1 (0 127) Factor for cyclic sending 101 Input 2 (0 127) Factor for cyclic sending 102 Input 3 (0 127) Factor for cyclic sending 103 Input (0 127) Behaviour after bus voltage recovery: Input 1 : Telegr. value is sent with delay sent immediately not sent Input 1 : Telegr. switch is sent immediately not sent Sending delay in [s] 60 (5 255) Input 1 : Value Value is sent as 16 bit value 8 bit value only for 16 bit input value: Sent value Base * Factor Base for 0% of the input signal 0 (-32768 32767) Base for 100% of the input 1000 signal (-32768 32767) Factor 0.01 / 0.1 / 1 / 10 / 100 only for 8 bit input value: Value for 0% of the input signal 0 (0 255) Value for 100% of the input 255 signal (0 255) Cyclic sending no / yes Send if signal changes no / yes only for sending Send if signal changes by [%] 10 (1... 100) Telegram is delayed by 0 s / 1 s / / 10 s / 5 min Threshold value 1 [%] 80 (0 100) Threshold value 2 [%] 20 (0 100) Separate for both threshold values: Reaction when exceeding send ON telegram send OFF telegram none Reaction when going below send ON telegram send OFF telegram none Cyclic sending no / yes Page 5 of 6 AES_1_TD_EN_V1-1 2CDC 50 010 D0201
Analogue Input, -fold, MDRC, GH Q605 005 R0001 Page 6 of 6 AES_1_TD_EN_V1-1 2CDC 50 010 D0201