Samson 5476 manual Flow rate/capacity limitation, Limitation using pulse input

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System-wide functions

Note!

The function cannot be selected in systems Anl 4, 5 and 9 with solar system and in system Anl 11 with VF3.

7.10 Flow rate/capacity limitation

Flow rate/capacity limitation can be implemented based on a pulse or standardized signal of 0/4 to 20 mA provided by the heat meter. This only applies in plants without solar system. Par- ticularly when a standardized signal is applied, a heat meter (flow meter) with high measuring accuracy is required.

It must be ensured that the controller is supplied with updated measured values in intervals of max. 5 seconds.

In system Anl 1, just the maximum limit for the flow rate or capacity can be entered.

7.10.1 Limitation using pulse input

A connected heat meter (terminals GND/15) with pulse output can be used to limit either the flow rate or the capacity in the system.

Two different maximum limits can be set: ￿Maximum limit

￿Maximum limit for DHW exclusively for DHW heating

All limit values are given in the unit “pulses per hour“ [pulse/h]. As a result, the controller does not distinguish between a flow rate pulse signal or a capacity pulse signal. As the displayed cur- rent pulse rate P [pulse/h] is calculated depending on the interval between the received pulses, it is natural that the controller cannot react immediately to all rapid flow rate or capacity changes which occur in the system.

When the pulse rate reaches the current Max. limit, the current flow set point is reduced. How strongly the controller responds is determined by the Limiting factor.

In systems Anl 4 to 6 and 11, the control circuit with lowest set limit in the set point is always re- duced.

Example to determine the limit:

If a capacity of 30 kW is to be limited, the following limit value must be set for a heat meter with an output of one pulse per kilowatt-hour:

30 kW

P =1 KWh / pulse = 30 pulse / h

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Contents Mounting and Operating Instructions EB 5476 EN Disclaimer of liability Contents Contents Contents Operating elements OperationOperating keys Operating switches Operating modes Closed DisplayDisplaying data Setting the controller time Heating circuit Setting the times-of-useStart Entering public holidays Entering vacation periods Correcting temperature set points Activating and deactivating functions Start-up Setting the system code numberDisplay shows Current system code number Blink Enter key number Changing parametersCalibrating sensors Resetting to default values Manual operation DHW SystemsSystem Anl Default settings FB13 = OFF Without RF FB20 = on 26 EB 5476 EN FB15 = ON, select CF FB15 = ON, select Solar FB21 = OFF Solar collector 32 EB 5476 EN FB15 = ON, select CF 34 EB 5476 EN Default settings FB13 = OFF Without RF FB20 = on FB15 = on Systems 38 EB 5476 EN FB15 = on Weather-compensated control Functions of the heating circuitGradient characteristic · 4-point characteristic 2 4-point characteristicUnderfloor heating Fixed set point controlOT deactivation value in reduced operation Summer modeRemote operation Delayed outdoor temperature adaptationOptimization Adaptation Flash adaptationPotentiometer input Pump management· DHW heating in a storage tank system Functions of the DHW circuit · DHW heating in a storage tank charging system DHW heating in the storage tank charging system52 EB 5476 EN DHW heating in instantaneous heating system Anl DHW heating with solar system Anl 2, 3, 4, 5 undCirculation over the heat exchanger Circulation pump operation during storage tank chargingIntermediate heating operation Anl 2, 3 Parallel pump operation Anl 2, 3Reverse control Priority circuit Anl 4, 5, 6, 7, 8Set-back operation Thermal disinfection of the DHW storage tank Forced charging of the DHW storage tank Anl 2, 3, 5, 7, 8Frost protection Return flow temperature limitationForced operation of the pumps FB21 = on Three-step control Condensate accumulation controlReleasing a control circuit over the binary input On/off controlProcessing of external demand in RK1 Flow rate/capacity limitation Limitation using pulse inputLocking manual levels Limitation using 0/4 to 20 mA signalSetting a customized key number Collective error alarm Operational faultsSensor failure Error status register Temperature monitoringCommunication CommunicationController with RS-232-C port · Pin assignment of RS-232 port left and RS-485 port right Controller with serial RS-485 interfaceDescription of communication parameters to be adjusted Modem time-out t0 Meter bus interfaceFlow rate and/or capacity limitation via meter bus Activating the meter busInstallation Appendix Memory module InstallationPanel mounting Electrical connection TWF Systems Anl 1 to Systems Anl 5 to 80 EB 5476 EN Appendix Function block list Parallel pump Setting only possible after entering key number UP1 Circulation over BA8 12.2 Parameter list 88 EB 5476 EN Maximum flow temperature Can only be set after entering the key number Min. return flow temperature System Anl 9, underfloor heating circuit Min. flow temperature 20 to 130 C 20 C DHW heating DHW heating OFF 20 to 90 C 50 C 20 to 130 C 120 C ST.-NR Sensor resistance tables Technical data Customer data Model code WMZ 2 FB29 = on Parameter settings Appendix Public holidays and vacations SLP Key number 1732 Appendix Index PTC Thermal disinfection EB 5476 EN 0000 Page EB 5476 EN

5476 specifications

The Samson 5476 is a high-performance microphone designed for professional audio applications, offering exceptional quality and versatility for various recording environments. Known for its robust build and advanced features, the 5476 is a reliable choice for musicians, broadcasters, and sound engineers.

One of the standout characteristics of the Samson 5476 is its cardioid polar pattern, which effectively isolates the sound source while minimizing background noise. This feature is especially beneficial in live performance settings or during studio recordings where external noise can be a challenge. The microphone’s frequency response ranges from 20 Hz to 20 kHz, making it suitable for capturing a wide variety of sound sources, from deep bass notes to crisp high frequencies.

The 5476 incorporates a dynamic transducer that enhances its durability and reliability, ensuring it can withstand the rigors of frequent use. The built-in shock mount system further reduces handling noise and vibrations, allowing for clearer audio capture. Additionally, the microphone is equipped with a built-in pop filter, which mitigates plosive sounds that can occur during vocal recordings.

This microphone also features a low impedance output, ensuring compatibility with a wide range of mixing consoles and recording interfaces. Users can easily connect the 5476 to XLR inputs, making it straightforward to integrate into any professional audio setup. The microphone’s high output level ensures excellent signal integrity, providing clean and precise audio reproduction.

Another notable technology in the Samson 5476 is its advanced capsule design, which helps to enhance the microphone's sensitivity and transient response. This results in natural-sounding audio, whether it’s used for vocals, instruments, or ambient sounds. The microphone’s construction also includes a durable metal body that can withstand the wear and tear of live performances and frequent handling.

In summary, the Samson 5476 is a versatile and reliable microphone that combines advanced technology with practical features suited for both studio and live environments. Its cardioid pattern, dynamic transducer, low impedance output, and robust build make it a valuable tool for any audio professional looking to achieve high-quality recordings. Whether for vocals, instruments, or broadcasting, the Samson 5476 delivers consistent performance and exceptional sound quality, making it a top choice in its class.