Automated Logic U551 Technical Instructions Download Page 2 | Manualshive

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Automated Logic U551 Technical Instructions Download Page 2

Revised 8/14/02 • U551

2

© 2002 Automated Logic Corporation

Using the U551

The U551 is part of a family of control
modules designed specifically for heat pump
and fan coil applications. The U551 has:

• five digital outputs

• two LogiStat inputs

• three general purpose inputs

• one analog output

The U551 communicates with other U-Line
modules on the Unet using BACnet MS/TP
protocol over EIA-485 twisted pair wire. The
U551 module communicates with the CMnet
through Unet Interface modules (UNIs). The
UNI must use one of the following module
drivers to communicate with the U551:

• For WebCTRL systems, the DRV_UNI16

or DRV_UNI32 module driver

• For SuperVision systems, the U1M,

U3M, U5M, or UNM module driver

If communication with the UNI is lost, the
U551 can be programmed with a backup
default algorithm to maintain space
temperature. Refer to the appropriate UNI
module driver technical instruction for
instructions on setting up this default
algorithm.

The U551 module is programmed with a
Graphic Function Block (GFB), which is
transferred into the UNI. Depending on the
software you are using, GFBs written for U-
Line modules must be created in Eikon for
WebCTRL or Eikon using the Zone GFB
option; refer to the

Eikon for WebCTRL User’s

Guide

or the

Eikon User’s Guide

for more

information.

NOTE

To operate this module based on a

schedule, the UNI must be networked with a
gateway module.

U551 modules have been designed to meet
low-end, high-volume terminal control
applications. As a result, time-critical
applications (such as short time delays and
trend intervals of less than one minute)
should not be used with these modules. ALC
recommends that all time delay functions and
trend intervals in U551 FBs be set to at least
one minute.

CAUTION

If the equipment is used in a

manner not specified by the manufacturer,
the protection provided by the equipment
may be impaired.

Specifications

Power

24VAC

±

10%, 12VA, 50-60Hz.

Inputs

three inputs configurable for

thermistor, 0 to 5VDC, or dry contact; two
LogiStat inputs.

Input Resolution

10 bit.

Digital Outputs

five relay outputs, rated

at 1A.

Analog Outputs

one analog output, 0-

10VDC, 5mA maximum drive capability.

Output Resolution

8 bit.

Communication

9600 bps or 38.4 kbps,

automatically detected (determined by
UNI module).

Environmental Operating Range

0 to

130 °F (-17.8 to 54.4 °C); 5 to 95% relative
humidity, non-condensing.

Status Indication

Visual (LED) indicators.

Memory

60KB Flash EPROM and 2KB of

RAM, 8KB non-volatile storage for
default algorithm and configuration data.

Protection

Metal oxide Varistor (power,

analog inputs, and output relay).
Transient voltage suppressor (analog
output). Zener and opto isolation
protection (communications).

Listed by

PAZX (UL 916).

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Summary of Contents for U551

Page 1: ...ed trademark of ASHRAE All other brand and product names are trademarked by their respective companies Technical Instructions U55 1 Using the U551 2 Specifications 2 Job Start Up 3 Job Start Up for WebCTRL 3 Job Start Up for SuperVision 3 Start Up Checklist 4 Mounting 4 Addressing 4 Power Wiring 4 Communications Wiring 5 Communicating Through the LogiStat Port 6 Input Wiring 7 Using the LogiStat 7...

Page 2: ...kon User s Guide for more information NOTE To operate this module based on a schedule the UNI must be networked with a gateway module U551 modules have been designed to meet low end high volume terminal control applications As a result time critical applications such as short time delays and trend intervals of less than one minute should not be used with these modules ALC recommends that all time ...

Page 3: ...need these items to properly start up and support U cards UNI 16 with the U1M module driver UNI 30 with the U3M module driver UNI 32 with the UNM module driver or UNI 59 with the U5M module driver Eikon 3 0a or later Figure 1 U551 Layout and Dimensions Ones Tens Gnd Temp Sw LS5v L o g i S t a t Tx Enclosed Energy 88FO E143900 TYPE 000553 Management Equipment R Run n c Gnd AO 1 DO 5 DO 4 DO 3 DO 2 ...

Page 4: ...fied This number is shown on the UNI Properties page in WebCTRL or on the UNI Status page in SuperVision Power Wiring The Unet follows the same specifications as a legacy CMnet Refer to the Technical Handbook for details on legacy CMnets Also refer to the Technical Handbook for detailed information on daisy chain star and hybrid wiring configurations There is a special wire available that contains...

Page 5: ...is unshielded Shielded cable is not required for the Unet In most circumstances you should have a PROT485 within 250 feet of any U line module on the Unet for surge protection However depending on the frequency of electrical surges in your area the 250 foot recommendation may vary For example if you have frequent electrical storms in your area you may want to use more PROT485s if you have few elec...

Page 6: ...hat it can provide power to the APT If the LED is not on you can provide power to the APT using the Supplemental Power 5V dc connection see Figure 6 on page 7 and the special power cable to a laptop keyboard jack or an external supply such as a 5V dc transformer 3 Define the connection type In SuperVision v3 0 define the connection as Access Port In SuperVision v2 6 define the connection as Direct...

Page 7: ...behind the input port You must remove the cover to access the pull up jumpers The output impedance of a 0 to 5VDC source must not exceed 10kohms The input impedance of the U551 is approximately 1Mohm Dry Contact A 5VDC wetting voltage is used to detect contact position This results in a 0 5mA maximum sense current when the contacts are closed No pulse accumulation inputs are allowed in U551 FBs ex...

Page 8: ...le Be sure the U551 s power is off before wiring any inputs or outputs Connect the output wiring to the screw terminals on the module To verify each output s operation lock the output to a known condition on the Function Block s Properties page in WebCTRL or the Parameter page in SuperVision then make sure the equipment operates as specified Using Flow Sensors The U551 controls air flow in the zon...

Page 9: ...ge in WebCTRL or Parameter page in SuperVision Refer to the Eikon for WebCTRL Microblock Reference Guide or the Eikon Microblock Reference Guide for more information NOTE When installing the UDF be sure to permanently remove the W4 jumper as shown in Figure 12 prior to performing test and balance Writing GFBs for the U55 1 Depending on whether you are using a WebCTRL or a SuperVision system you mu...

Page 10: ...ence Guide You do not need to use BACnet microblocks when writing the GFB unless you have a BACview Keypad Display connected to the UNI You must then use BACnet point microblocks to access U551 points through the keypad Point Identifiers A point can be identified in WebCTRL by its point number and point type in SuperVision a point is identified by its channel number On both systems expander number...

Page 11: ...gital 21 IN 2 Thermistor 32 17 to 213 F 27 to 100 6 C 0 00 0 00 15 88 15 69 Volts 32 0 to 5V Digital 22 Sw Thermistor A3 17 to 213 F 27 to 100 6 C 0 00 0 00 15 88 15 69 Digital B3 LogiStat Temp Thermistor A1 or A2 45 to 100 F 7 22 to 37 8 C 0 00 0 00 15 88 15 69 LogiStat Thermistor 33 17 to 213 F 27 to 100 6 C 0 00 0 00 15 88 15 69 IN 3 or UDF 2 Volts 33 0 to 5V Digital 23 UDF 2 Flow CFM Flow inpu...

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