© 2005 D 420 - 06/05 12 of 24
tekmarNet
®
4 Communication Section A
tekmarNet
®
4 (tN4) communicates between tN4 devices
(thermostats, Reset Module and Expansion Modules). Each
tN4 device is connected to a tN4 communication bus using
two wires. Each tN4 bus adjusts a single water temperature
in the system using indoor temperature feedback. The Boiler
Reset Module 420 allows for one tN4 bus. This allows you
to control a system with one water temperature.
A system that has more than one tN4 bus is referred to as
a tN4 network.
Outdoor Reset Module
The Boiler Reset Module 420 is the system control for a
hydronic heating system. The 420 operates a single heat
source such as a boiler, a domestic hot water tank, and
responds to other heating requirements such as pool heating
and snow melting. The 420 also coordinates and optimizes
the operation of all the tN4 thermostats.
tN4 Thermostat
The tN4 thermostat operates heating, cooling, and or
ventilation equipment for a zone. Several tN4 thermostats
may work in a group when operating a cooling system. Up
to 24 tN4 thermostats can connect to a single tN4 bus.
Outdoor Reset Section B
In a heating system, the rate of heat supplied to the
building must equal the rate of which heat is lost. If the
two rates are not equal, the building will either cool off
or over heat.
The rate of building heat loss depends mostly on the
outdoor temperature. Outdoor Reset allows a hot water
heating system to increase the water temperature, adding
heat to the building, as the outdoor temperature drops.
The rate at which the water temperature is changed is
defined by the characterized heating curve.
Characterized Heating Curves
A characterized heating curve determines the amount the
supply water temperature is raised for every 1° drop in
outdoor air temperature. There is a characterized heating
curve for each tN4 communication bus.
The characterized heating curve takes into account the
type of terminal unit that the system is using. Since different
types of heating terminal units transfer heat to a space using
different proportions of radiation, convection and conduction,
the supply water temperature must be controlled differently.
Each tN4 bus is assigned a terminal unit setting that the
control uses to vary the supply water temperature to suit
to the terminal unit used. This improves the control of the
air temperature in the building.
Indoor Temperature Feedback
Most buildings have internal heat gains due to people,
passive solar heating and mechanical or electrical equipment.
Likewise, wind loads cause a building to lose heat faster than
during design conditions. If only the outdoor temperature is
measured, the control cannot compensate for these internal
heat gains or loses and the building may over or under heat.
In order to maintain the most comfortable temperature,
the control uses indoor temperature feedback from tN4
thermostats in order to adjust the water temperature on
each tN4 bus on a continual basis.
Sequence of Operation
Dual Zone Manager 337
Zone A1
Zone A2
Power
Zone Group Pump A
Zone A3
Zone B1
Zone B2
Zone B3
tN4
Zone Group Pump B
Bus 1 Bus 2
Network
tekmarNet
®
4
Thermostats
tekmarNet
®
4
Thermostats
51
52 53 54 55 56 57 58 60 61 62 63 64
Boiler DHW Setpoint C
59
C Com Boil OutVlv
Demand Demand 24 V (ac) DHW
R
65
+
Mod (dc)
–
DHW Primary
10 A
max.
66 67 68 69
N
Pump NPump
tN4
H7006B
Boil On-Off / Mod
Off / tekmar Stager
PoweredOutput 1 VA
DHW Valve:
24 V (ac) 8 VA
Made in Canada
Meets Class B: Canadian
ICES & FCC Part 15
Test
Boiler Reset Module 420
Item
Menu
tektra 991-01
Demands: 20 - 260 V (ac)
Relay Rating: 115 V (ac) 5 A
/
Do not apply power
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