Bosch Appliances Smoke Alarm D2071A User Manual

D2071A  
Operation & Installation Guide  
EN  
Fire Alarm Control Panel  
 
D2071A | Operations & Installation Guide | FCC Notice  
Figures  
FCC Notice  
The D2071A Fire Alarm Control Panel (FACP)  
generates, uses, and can radiate radio frequency energy.  
If this device is not installed according to the  
manufacturer’s instructions, it can cause interference to  
radio communications. The D2071A was tested and  
complies with the specifications in Subpart J of Part 15  
of Federal Communications Commission (FCC) Rules  
for Class “B” Computing Devices.  
Figure 1: D2071A Control Panel .................................... 7  
Figure 2: Stand-Alone Installation................................... 8  
Figure 3: Slave Communicator Installation .................. 9  
Figure 4: Mode 1 Class “B” Wiring..............................11  
Figure 5: Mode 2 Class “B” Wiring..............................11  
Figure 6: Mode 3 Class “B” Wiring..............................12  
Figure 7: Relay Sockets ..................................................13  
Figure 8: RJ31X Wiring....................................................15  
Figure 9: Inserting Cable Tie .......................................... 17  
Figure 10: Securing Cable Tie and Wires .................... 17  
Figure 11: Program 2071 Navigation .............................18  
If the D2071A interferes with radio or television  
reception, determined by turning the radio or television  
on and off, correct the interference by one or more of  
the following:  
Reorient the radio or television antenna.  
Tables  
Connect the AC transformer to a different outlet so  
the D2071A and radio or television are on different  
branch circuits.  
Table 1: Required Materials.............................................. 5  
Table 2: Mandatory Connections for the NFPA 72  
Central Station and Remote Station ............. 5  
Table 3: D2071A Dimensions .......................................... 6  
Table 4: 24 VDC Battery Discharge and  
Relocate the D2071A with respect to the radio or  
television.  
If necessary, consult an experienced radio and television  
technician for additional suggestions on correcting  
interference. You can also send for the FCC’s Interference  
Handbook (stock no. 004-000-00450-7) at:  
Recharge Schedule..........................................14  
Table 5: 12 VDC Battery Discharge and  
Recharge Schedule..........................................15  
U.S. Government Printing Office  
Washington D.C. 20402  
Table 6: Call Routing Assignments...............................16  
Table 7: Function Keys.....................................................19  
Table 8: Tones.....................................................................19  
Table 9: Special Dialing Characters ............................21  
Table 10: Receiver Reports.............................................. 23  
Table 11: Communications Failures............................... 24  
Table 12: Zone Problems .................................................. 26  
Table 13: Specifications ................................................... 27  
The D2071A Control Panel is registered with the FCC  
under Part 68 for connection to the public telephone  
network using an RJ31X or RJ38X jack installed by  
your local telephone company.  
FCC Registration Number: AJ9USA-61104-AL-E  
Ringer Equivalence: 0.0B (AC); 1.3B (DC)  
Bosch | 09/04 | 74-06200-000-F  
3
 
D2071A | Operations & Installation Guide | 1.0  
Overview  
1.3  
Materials Included  
1.0 Overview  
The D2071A Fire Alarm Control Panel (FACP) is a  
three-zone digital alarm communicator transmitter  
(DACT) used in limited stand-alone applications or in  
off-premises monitoring of existing FACPs in slave  
applications.  
1.3.1  
D2071A  
The D2071A is shipped completely assembled and  
includes:  
Installation literature  
Zone 1 is a Class A” (NFPA Style D) alarm initiating  
circuit. It can monitor waterflow or other alarm  
initiating devices in a stand-alone application. Zone 1  
can also monitor an alarm output in a slave application.  
End-user information label  
15 in. (2.7 cm) double-sided adhesive strips (2)  
Mounting screws and washers (2)  
Strain relief cable tie (1)  
Zones 2 and 3 are Class “B” (NFPA Style A)  
supervisory circuits that monitor sprinkler supervision  
devices such as valve tampers in a stand-alone  
application or trouble outputs in a slave application.  
32 in. (81 cm) dual connector battery leads  
1.8 kend-of-line (EOL) resistors for Zone 2 and  
Zone 3 supervision circuits (2)  
Primary and alternate telephone outputs allow the  
D2071A to communicate to the central station or remote  
station. A built-in telephone line supervision circuit with  
trouble buzzer, LED, and optional Form “C” Relay  
provides local telephone line trouble annunciation for  
both telephone lines. The D2071A also provides an  
optional Form “C” Relay output for alarm annunciation  
on the alarm initiating circuit.  
1.3.2  
D2071AC  
The D2071AC Kit include the D2071A and:  
Installation literature  
End user information label (1)  
Mounting screws and washers (2)  
Strain relief cable tie (1)  
The D2071A is housed in a red plastic, nonconductive  
enclosure that insulates the device from surrounding  
circuit boards or metal surfaces. You can mount the  
D2071A in fire alarm control enclosures specified in  
Table 1 on page 5.  
32 in. (81 cm) dual connector battery leads  
1.8 kEOL resistors for Zone 2 and Zone 3  
supervision circuits (2)  
D4103R Enclosure (1)*  
D161 Telephone Cords (2)  
Conduit support washers (2)  
1.1  
Communicator  
The D2071A uses a built-in communicator to transmit  
reports to a digital receiver. Two RJ31X or RJ38X jacks  
connect to two separate telephone lines for primary and  
alternate transmissions. The D2071A has full telephone  
line seizure and complies with FCC regulations for  
using the public telephone network.  
* The D4103R includes a D2002 Mounting Plate and a Basler  
Electric Transformer (Model A9115 [P/N: 58-06306-000])  
installed in the enclosure. This transformer is Underwriters  
Laboratories, Inc. (UL) recognized, Class II rated for 20 VA at  
12 VAC. It uses pigtails to hard wire directly to a 110 VAC or  
120 VAC power source.  
You must program two receiver telephone numbers for  
the D2071A. Initially, the communicator attempts to  
transmit reports to the primary telephone number. If it  
cannot, the communicator switches to the alternate  
number. Reports are transmitted to the receiver in  
binary frequency-shift keying (BFSK) format or pulsed  
fast single round format. The communicator only  
accepts the 2300 Hz acknowledgment tone. It is  
compatible with most major digital receivers that accept  
the BFSK or Pulsed Fast Single Round format, and  
generates a 2300 Hz acknowledgment tone.  
1.4  
Required Materials  
Table 1 lists additional parts necessary to install the  
D2071A.  
1.5  
Listings and Approvals  
UL lists the D2071A DACT under UL Standard 864,  
Control Units Fire Signaling Systems and 1635, Digital  
Alarm Communicators for NFPA 72 Central Station  
Signaling Service and NFPA 72 Remote Station  
Signaling Service. Install the D2071A according to NEC  
Article 760 of the NFPA 70. Additional approvals are  
Factory Mutual (FM), California State Fire Marshal  
(CSFM), and New York City-Material Engineering  
Association (NYC-MEA).  
1.2  
RFI and Lightning Protection  
The D2071A resists radio frequency interference (RFI)  
and high-voltage surges common to lightning areas.  
Spark gaps and metal oxide varistors (MOVs) give the  
D2071A additional electrical protection.  
4
Bosch | 09/04 | 74-06200-000-F  
 
D2071A | Operations & Installation Guide | 1.0  
Overview  
Table 1:  
Item  
Required Materials  
Description  
D126 Battery  
Use a 12 V, 7 Ah battery for NFPA 72 remote station stand-alone applications. Must  
provide 60 h of standby plus 5 min of alarm operation. Use only in 12 VAC Mode.  
Only use 12 V, 2.3 Ah battery for NFPA 72 central station applications. Must provide  
24 h of standby. Use only in 12 VAC Mode.  
D129 Battery  
D136 Relay 1 or 2 (optional)  
Use one relay to enable the Phone Line Trouble Relay (K5) and use the other relay to  
enable the Initiating Circuit Alarm Relay (K6).  
D161* or D162 Phone Cord (2)  
D1220 Transformer  
Primary and alternate telephone line connections.  
Use only in 12 VAC Mode.  
D4103R Enclosure ** or  
Use either enclosure or another UL Listed fire enclosure.  
D8109 Enclosure (optional)  
D2002 Mounting Plate* (optional)  
Use to mount the D2071A in a D4103 Enclosure.  
D5100 Programmer or  
D5200 Programmer  
Use either programmer with the 2071 Product Handlers loaded.  
D8004 Transformer Enclosure  
Required for the D1220 Transformer in commercial fire applications if the D2071A Kit  
is not used.  
* You must use the D8004 Transformer Enclosure or the D2071AC for commercial fire applications.  
1.5.1  
Mandatory Connections  
To comply with the NFPA 72 Central Station Fire or NFPA 72 Remote Station Signaling Service, connect the  
D2071A as described in Table 2. The Class A” and Class “B” circuits are mandatory connections for the slave and  
stand-alone applications. Refer to Section 2.0 Installation on page 8 for wiring instructions.  
Table 2:  
Mandatory Connections for the NFPA 72 Central Station and Remote Station  
Stand-Alone Applications Slave Applications  
Connection  
Terminal  
Number  
1, 2  
NFPA 72  
Central Station  
OK  
NFPA 72  
Remote Station  
OK  
NFPA 72  
Central Station  
OK  
NFPA 72  
Remote Station  
OK  
12 VAC Primary Power*  
24 VDC Primary Power  
1,2  
NO  
OK  
NO  
OK  
OK  
OK  
D126 Battery Backup  
(12 VDC, 7Ah)  
4, 5  
Required  
Required  
D1219 Battery Backup  
(12 VDC, 2.3 Ah)  
4,5  
OK  
NO  
OK  
NO  
Class “A”, Style D Circuit 6, 7, 8, 9  
Maximum of 5 waterflow switches or up  
to 100 mechanically activated initiating  
devices such as heat detectors or  
manual pull stations. Not suitable for  
smoke detectors.  
Normally open dry alarm output  
contacts of an existing FACP.  
Retard and Reset Times  
(waterflow alarm only)  
6, 7, 8, 9  
Refer to the appropriate standard or as  
allowed by the AHJ.  
N/A  
Class “B”, Style A Circuit 6, 7, 8, 9  
(recommended mode)  
10, 11  
3
3
3
3
Monitors up to 20 valve supervisory  
switches per circuit.  
Normally open dry trouble contacts of  
an existing FACP.  
11, 12  
Mode 1 is not acceptable.  
Mode 2 is only acceptable when a valve  
tamper device, with only a normally  
closed contact, must be used and only  
on approval of the AHJ.  
Mode 3 is preferred.  
Modes 1 and 2 are acceptable.  
Earth Ground  
3
Yes  
No  
* You must use the D8004 Transformer Enclosure or the D2071AC for commercial fire applications.  
Bosch | 09/04 | 74-06200-000-F  
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D2071A | Operations & Installation Guide |  
1.0  
Overview  
System restoral  
1.6  
Slave Communicator Applications  
2300 Hz acknowledgment tone  
To use the D2071A as a slave communicator that only  
provides signaling connections, connect the D2071A to  
an existing UL Listed NFPA 72 FACP. Use the D2071A  
in compliance with NFPA standards to provide:  
BFSK or 3 x 1, 40 pulses per second (PPS), single  
round with parity (superfast)  
NFPA 72 central station connections for an existing  
FACP when only a summary alarm and up to two  
trouble signals are required, and  
1.8  
D2071A Control Panel Assembly  
Table 3:  
D2071A Dimensions  
NFPA 72 remote station signaling connections for an  
FACP listed for NFPA 72.  
Dimensions  
(H x W x D)  
6.8 in. x 4.4 in. x 1.1 in.  
(17.3 cm x 11.2 cm x 2.8 cm)  
Color  
Red  
1.6.1  
Slave Application Power  
Construction  
UL94V-O flame-rated, acrylonitrile  
butadiene styrene (ABS) plastic,  
non-conductive  
For slave communicator applications, connect the  
D2071A to a 24 VDC FACP.  
Do not install a battery in this configuration.  
Do not connect the D2071A to a 12 VDC  
power supply or a control panel that only  
provides 12 VDC output.  
1.8.1  
Terminal Strip  
The terminal strip (Item 1 in Figure 1 on page 7)  
connects system wiring for power, ground, a Class A”  
Alarm Initiating Circuit, two Class “B” supervisory  
circuits, and two Form “C” Relay outputs.  
If the FACP does not provide a 24 VDC auxiliary  
power output, you must use a D126 Battery, a D1220  
Transformer, and a D8004 Transformer Enclosure.  
1.8.2  
Programmer Connector (J3)  
If using the D2071AC, the Basler Electric Model A9115  
Transformer (P/N: 58-06306-000) installed in the  
D4103R Enclosure replaces the D1220 Transformer and  
the D8004 Transformer Enclosure. This is a UL  
recognized, Class II transformer rated for 20 VA at  
12 VAC. It uses pigtails to hard wire directly to a  
110 VAC or 120 VAC power source.  
Connect the D5100 or D5200 Programmer to the J3  
programmer connector (Item 2 in Figure 1).  
1.8.3  
D2071A Enclosure Cover  
The D2071A Enclosure Cover (Item 3 in Figure 1) slides  
open approximately 2 in. (5.1 cm) to expose the terminal  
strip, programming jack, and two Form “C” Relay  
sockets. You do not need to completely remove the  
cover during installation or for service.  
1.6.2  
UL Listed Enclosure  
Unless the monitored FACP is specifically listed or  
approved for use with the D2071A installed in the same  
enclosure, install the D2071A in a separate UL Listed  
enclosure. Connect the separate enclosure to the FACP  
by a conduit that is no more than 20 ft (6 m) long. The  
D4103R, D8109, and D8108A are all suitable for this  
purpose. The D2071AC includes a D4103R with a Basler  
Electric, UL recognized, Class II, hard wire transformer  
rated for 20 VA at 12 VAC mounted in the enclosure. It  
uses pigtails to hard wire directly to a 110 VAC or  
120 VAC power source.  
1.8.4  
Phone Line Trouble Buzzer  
The Phone Line Trouble Buzzer (Item 4 in Figure 1)  
sounds when either the primary or the alternate  
telephone line is in a trouble condition, or when  
communications failure occurs. Ten failed attempts to  
transmit any report puts the control panel in  
communications failure. The Phone Line Trouble LED  
and Phone Line Trouble Relay follow the Phone Line  
Buzzer.  
The buzzer, LED, and relay deactivate after a trouble  
condition occurs on the telephone line and the receiver  
acknowledges the Phone Line Trouble Report, or when  
the line returns to normal. If the D2071A attempts to  
transmit the Phone Line Trouble Report ten times  
without acknowledgment from the receiver,  
1.7  
Receiving Equipment  
The D2071A must report to compatible, UL Listed  
receiving equipment that meets the following processing  
capabilities:  
Fire alarm  
communication failure occurs.  
System trouble  
Low battery  
24-hour test  
If the D2071A is in communication failure, either the  
primary or alternate telephone line must be detected as  
normal and a report acknowledged by the receiver  
before the buzzer deactivates.  
6
Bosch | 09/04 | 74-06200-000-F  
 
D2071A | Operations & Installation Guide | 1.0  
Overview  
Figure 1: D2071A Control Panel  
5
6
1
2
3
4
7
8
12  
7
Aromat  
S1E-M  
C12V  
G20134408  
APAN  
0830 BOTTOM VIEW  
9
Aromat  
S1E-M  
C12V  
G20134408  
APAN  
0830 BOTTOM VIEW  
11  
10  
1 - Terminal strip  
7 - Mounting tab  
2 - Programmer connector (J3)  
3 - D2071A Enclosure Cover  
4 - Phone Line Trouble Buzzer  
5 - Phone Line Trouble LED  
6 - LED hole  
8 - Alternate modular telephone jack (J2)  
9 - Primary modular telephone jack (J1)  
10 - Phone Line Trouble Relay socket (K5)  
11 - Initiating Circuit Alarm Relay socket (K6)  
12 - Strain relief tab  
1.8.5  
Phone Line Trouble LED  
1.8.9  
Phone Line Trouble Relay (K5)  
This yellow Phone Line Trouble LED (Item 5 in Figure 1) Install a D136 Relay in this socket when using the  
is visible through the top of the enclosure at the upper  
right corner (Item 6 in Figure 1). This LED lights when  
the control panel detects telephone line trouble on either  
the primary or secondary telephone line, when there is a  
communication failure, and briefly on powerup.  
optional Phone Line Trouble Relay (Item 10 in Figure 1)  
for Terminals 13 to 15. This relay activates when  
telephone line trouble is detected on the primary or  
secondary telephone line,communication failure occurs,  
and briefly at powerup.  
1.8.6  
Mounting Tabs  
1.8.10 Initiating Circuit Alarm Relay (K6)  
Mounting tabs (Item 7 in Figure 1) are located on each  
end of the D2071A to provide a way to mount the  
Install a D136 Relay in this socket when using the  
optional Initiating Circuit Alarm Relay (Item 11 in  
D2071A with screws. You can also use the adhesive strips Figure 1) for Terminals 16 to 18. This relay activates  
to mount the D2071A.  
when the initiating circuit is in an alarm condition.  
1.8.7  
Alternate Modular Telephone Jack  
1.8.11 Strain Relief Tab  
The alternate telephone jack (Item 8 in Figure 1) connects  
the D2071A to an alternate telephone line for  
transmitting to the receiver. If the D2071A fails to  
contact the receiver after two attempts on the primary  
line, it switches to the alternate line.  
The strain relief tab (Item 12 in Figure 1) prevents  
unnecessary strain on the connections to the D2071A.  
Use the cable tie (included) to secure all wire running  
from the D2071A to the tab.  
1.8.8  
Primary Modular Telephone Jack  
The primary telephone jack (Item 9 in Figure 1) connects  
the D2071A to the primary telephone line for  
transmitting to the receiver.  
Bosch | 09/04 | 74-06200-000-F  
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D2071A | Operations & Installation Guide | 2.0  
Installation  
2.0 Installation  
Some terminals are wired differently for the stand-alone (Figure 2) and slave applications (Figure 3 on page 9).  
When you are using the D2071AC, mount the D4103R Enclosure and have a qualified electrician  
connect a 110 VAC or 120 VAC power source to the black and white leads on the transformer.  
Before beginning the D2071A installation, ensure the power source is turned off.  
Figure 2: Stand-Alone Installation  
S
S
P
P
12 VAC, 20 VA, 60 Hz  
12 VAC, 20 VA, 60 Hz  
1
2
3
4
5
6
7
8
9
1
EARTH GND  
P
P
BATTERY –  
-
2
4
3
+
BATTERY +  
P
S
INITIATING A1 –  
INITIATING A2 –  
INITIATING B1 +  
INITIATING B2 +  
5
5
6
P
S
8
9
10  
P
SUPERVISORY HI  
SUPERVISORY LO  
10  
11  
12  
P
P
S
10  
11  
10  
11  
S
P
7
S
SUPERVISORY HI  
TBL RELAY NC  
NC  
11  
13  
14  
11  
C
12  
13  
TBL RELAY COM  
NO  
NC  
15 TBL RELAY NO  
16 ALARM RELAY NC  
C
ALARM RELAY COM  
17  
NO  
18 ALARM RELAY NO  
1 - 12 VAC, 20 VA transformer  
2 - Maximum charging current 300 mA  
3 - Battery backup (D126 [12 V, 7 Ah] or D1219 [12 V, 2.3 Ah])  
4 - Alarm initiating circuit  
5 - Open = Trouble  
6 - Short = Alarm  
7 - Supervisory circuits  
8 - Mode 3 (Alarm [short] = 0 VDC to 1.7 VDC; Normal [resistive] = 1.9 VDC to 5.8 VDC;  
Trouble [open] = 6.0 VDC to 10.2 VDC)  
9 - Mode 2 (Normal = 0 VDC to 1.5 VDC; Alarm [resistive] = 1.8 VDC to 9.0 VDC;  
Trouble [open] = 9.3 VDC to 13.0 VDC)  
10 - Mode 1 (Normal = 0 VDC to 1.5 VDC; Alarm [open] = 1.8 VDC to 13.0 VDC)  
11 - 1.8 kEOL resistor  
12 - Phone Trouble Relay (maximum rating 2 A at 30 VDC)  
13 - Initiating Circuit Alarm Relay (maximum rating 2A at 30 VDC)  
Note:  
= Power limited;  
= Supervised  
8
Bosch | 09/04 | 74-06200-000-F  
 
D2071A | Operations & Installation Guide | 2.0  
Installation  
Figure 3: Slave Communicator Installation  
1
+
S
S
P
P
12 VAC, 20 VA, 60 Hz, OR + 24 VDC  
12 VAC, 20 VA, 60 Hz, OR – 24 VDC  
1
2
-
EARTH GND  
BATTERY –  
3
2
P
P
4
-
3
+
BATTERY +  
5
P
P
S
S
INITIATING A1 –  
6
N
6
5
INITIATING A2 –  
4
7
C
INITIATING B1 +  
8
N
N
INITIATING B2 +  
9
P
P
S
S
SUPERVISORY HI  
10  
11  
12  
13  
14  
15  
16  
17  
18  
8
SUPERVISORY LO  
SUPERVISORY HI  
TBL RELAY NC  
7
C
N
NC  
9
C
10  
TBL RELAY COM  
TBL RELAY NO  
NO  
NC  
ALARM RELAY NC  
ALARM RELAY COM  
ALARM RELAY NO  
C
11  
NO  
1 - Primary power supply (24 VDC supply from UL Listed FACP or 12 VAC, 20 VA transformer)  
2 - Alternate power supply  
3 - D126 Battery (12 V, 7 Ah) or D1219 Battery (12 V, 2.3 Ah)  
4 - Alarm initiating circuit (Trouble = open on Terminals 6, 7, 8, and 9; Alarm = short from Terminals 6 and 7 to  
Terminals 8 and 9)  
5 - Dry Closure Alarm Indicator Relay (Form “A” Normally Open)  
6 - FACP  
7 - Supervisory circuits: Mode 3 (Alarm [short] = 0 VDC to 1.7 VDC; Normal [resistive] = 1.9 VDC to 5.8 VDC;  
Trouble [open] = 6.0 VDC to 10.2 VDC)  
8 - Dry Closure Trouble Indicator Relay (Form “A” Normally Open)  
9 - 1.8 kEOL resistor  
10 - Phone Trouble Relay (maximum rating 2 A at 30 VDC)  
11 - Initiating Circuit Alarm Relay (maximum rating 2A at 30 VDC)  
Note:  
= Power limited;  
= Supervised  
1. Do not connect earth ground when connected to a 24 VDC power supply.  
2. Do not connect a battery when connected to a 24 VDC power supply (maximum charging current of  
300 mA).  
Bosch | 09/04 | 74-06200-000-F  
9
 
2.0  
Installation  
D2071A | Operations & Installation Guide |  
To determine the circuit’s electrical condition:  
2.1  
Earth Ground Wiring  
1. Ensure the D2071A is powered up and the loops are  
in a normal condition.  
Only use Terminal 3, not telephone or  
electrical ground, for earth ground  
connections.  
2. Use a multimeter to measure the voltage across the  
terminal connections. Connect one lead of the  
multimeter to a negative (-) terminal (6 or 7).  
Connect the other lead to a positive (+) terminal (8  
or 9).  
2.1.1  
12 VAC Mode  
To prevent damage from electrostatic charges or other  
transient electrical surges, use 16 AWG (1.5 mm) wire to  
connect the D2071A to earth ground at Terminal 3  
before making other connections to the control panel. A  
grounding rod or cold water pipe are good earth ground  
references.  
The measured zone input voltage reading for the  
electrical condition multimeter is Normal when  
Terminals 7 and 8 equal 1.0 VDC to 1.9 VDC, and  
Alarm (shorted) when Terminals 7 and 8 equal  
0.0 VDC to 0.3 VDC.  
2.2.2  
Retard and Reset Times  
2.1.2  
24 VDC Mode  
When the D2071A is connected to an  
FACP 24 VDC output, do not connect  
Terminal 3 to earth ground. This might  
cause a continuous ground fault condition  
on the FACP.  
Only use the Zone 1 retard or reset feature  
for waterflow switches and controls without  
their own retard and reset features.  
The retard timer prevents false alarms from conditions  
such as water supply surges in wet pipe sprinkler  
systems. These surges can occur during a brief  
activation of a waterflow alarm switch. The value you  
enter in Retard Time determines the length of time the  
waterflow switch remains activated before an Alarm  
Report is initiated. Generally, a 15-sec retard is adequate,  
but a longer interval might be necessary during  
extended surge conditions.  
2.2  
Zone 1, Alarm Initiating Circuit  
Use Terminals 6, 7, 8, and 9 for Zone 1  
alarm initiating circuit connections.  
Zone 1 is a four-wire, Class A” initiating circuit. You  
can connect up to five waterflow alarm switches or up to  
100 mechanically operated devices such as heat  
detectors or manual pull stations to this zone. NFPA 72  
requires you to connect a single pull station with  
waterflow switches. The AHJ might specify the location  
of this pull station. Other than this exception, do not  
combine waterflow switches with other types of devices.  
Reset Time is the parameter that compensates for  
sprinkler alarm valve fanning conditions in wet pipe  
systems with unique hydraulic problems. Fanning occurs  
when a sprinkler head activates or the inspector’s test  
valve opens and the waterflow switch does not activate  
long enough to overcome the retard time, but the  
waterflow switch cycles between alarm and normal  
conditions.  
Unlike the two-wire Class “B” circuits supervised by  
EOL resistors, the double loop Class A” circuit  
provides alarm response from all initiating devices with  
a single open or ground fault condition on the circuit.  
Connect the initiating devices to the D2071A as shown  
in Figure 2 on page 8 and Figure 3 on page 9.  
The retard and reset timers work together as follows:  
The retard timer tracks the time the alarm initiating  
circuit is in the alarm condition. It begins counting  
when the circuit enters the alarm condition.  
The reset timer determines when the retard timer  
resets to zero. When the alarm initiating circuit  
enters a non-alarm (restored or trouble) condition  
after being in the alarm condition, the retard timer  
stops at its current value and the reset timer begins  
counting.  
The D2071A has programmable retard (retard time) and  
reset (reset time) timers for waterflow alarm installations  
on wet pipe sprinkler systems. These timers compensate  
for water pressure surges and sprinkler alarm valve  
fanning conditions.  
If another alarm condition is detected before the  
reset timer reaches the value entered in reset time,  
the retard timer resumes counting from where it  
stopped and the reset timer is set to zero.  
2.2.1  
Class “A” Circuit Parameters  
The maximum resistance on the Class A” circuit sensor  
loop wiring is 100 per loop (between A1 and A2  
100 maximum, between B1 and B2 100 maximum).  
10  
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Installation  
If the time specified in the retard time accumulates in 2.3.1  
Mode 1  
one or more successive alarm activations, the  
D2071A transmits an Alarm Zone 1 Report and  
activates the Alarm Relay.  
In Mode 1 (Figure 4 ) the loops are configured for NC  
devices only, no EOL resistor is used. The loops are not  
supervised for troubles. This mode is not acceptable for  
the stand-alone applications.  
The retard timer resets to zero only when the circuit  
remains in a non-alarm condition (restored or  
trouble) for the time entered in reset time.  
Figure 4: Mode 1 Class “B” Wiring  
When the alarm initiating circuit is normal for the  
time specified in reset time, the D2071A sends a  
Restoral Zone 1 Report.  
10  
11  
Generally, the reset time is set to approximately half the  
retard time. For example, if retard time is set at 15 sec,  
reset time is set at 7 or 8 sec.  
NO  
C
10  
11  
2.2.3  
Wiring  
NC  
Stand-Alone Applications  
Connect the normally-open (NO) contacts of each  
waterflow switch (a maximum of five) or mechanically  
activated initiating device to the alarm initiating circuit  
in parallel as shown in Figure 2 on page 8.  
The Mode 1 status conditions are:  
Normal: 0.0 VDC to 1.5 VDC  
Alarm (Open): 1.8 VDC to 13.0 VDC  
Slave Communicator Applications  
2.3.2  
Mode 2  
1. Connect the alarm initiating circuit to an alarm  
indicator output (NO, dry closure) on the FACP  
(Figure 3 on page 9).  
Mode 2 (Figure 5) uses a 1.8 kEOL resistor across  
each NC device in the series loops. This mode is  
acceptable for NFPA 72 central station and remote  
station stand-alone applications only when an NC valve  
tamper device must be used and only upon approval of  
the AHJ.  
2. Connect Terminals 6 and 7 to the common (C)  
contact. Connect Terminals 8 and 9 to the NO  
contact.  
Figure 5: Mode 2 Class “B” Wiring  
3. Program the retard and reset times to 0 sec when  
connecting the alarm initiating circuit to an existing  
FACP.  
10  
11  
2.3  
Zones 2 and 3 (Supervisory Circuits)  
Use Terminals 10, 11, and 12 for supervisory  
circuit connections.  
1
NO  
10  
11  
C
NC  
Zones 2 and 3 are Class “B” circuits that monitor  
sprinkler supervision devices such as valve tampers  
(maximum of 20 per circuit) in stand-alone applications.  
In slave communicator applications, these circuits  
monitor the trouble outputs of an associated FACP.  
1 - 1.8 kEOL resistor  
The Mode 2 status conditions are:  
1. Wire Class “B” circuits in Modes 1, 2, or 3.  
Class “B” Mode determines the mode for Zones 2  
and 3.  
Normal: 0.0 VDC to 1.5 VDC  
Alarm (Resistance): 1.8 VDC to 9.0 VDC  
Trouble (Break): 9.3 VDC to 13.0 VDC  
2. Wire both circuits for the same mode configuration.  
3. Connect dry contact devices to the supervisory  
circuits in series (normally-closed [NC]) or in  
parallel (NO).  
A single off-normal device puts the loops into alarm. A  
broken circuit or multiple off-normal devices put the  
loops into trouble, unless the loop was previously in  
alarm.  
4. As necessary, install a 1.8 kEOL resistor at the  
end of the Class “B” circuits.  
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2.3.3  
Mode 3  
Slave Communicator Applications  
Mode 3 (Figure 6) uses a 1.8 kEOL resistor at the end  
of the loops. Trouble Reports are sent on an open  
circuit. This mode is required for sprinkler supervision  
in NFPA 72 central station and remote station slave  
applications or for Trouble Reports from the FACP. Use  
Mode 3 for 72 central station slave applications.  
1. When connecting the D2071A to an FACP, use the  
Mode 3 configuration for the slave communicator  
applications (Figures 4 through 6).  
2. Connect Terminals 10 and 11 (Zone 2) or Terminals  
11 and 12 (Zone 3) to the trouble outputs (dry  
closure) on the FACP.  
Figure 6: Mode 3 Class “B” Wiring  
3. Connect Terminal 10 or 12 to the NO contact and  
connect Terminal 11 to the C contact.  
10  
4. Install a 1.8 kresistor between the NO and NC  
contacts.  
11  
5. Program Class “B” Mode for Mode 3.  
1
2.3.6  
Class “B” Circuit Parameters  
NO  
C
10  
11  
1. Using a voltmeter measure the voltage across the  
terminal connections to determine the electrical  
condition of the Class “B” supervisory circuits (refer  
to Figures 4 through 6 for loop voltages).  
NC  
2. Connect the loop and power the D2071A.  
1 - 1.8 kEOL resistor  
2.4  
Initiating Circuit Alarm Relay  
The Mode 3 status conditions are:  
Alarm (Closed): 0.0 VDC to 1.7 VDC  
Normal: 1.9 VDC to 5.8 VDC  
Use Terminals 16, 17, and 18 for initiating  
circuit alarm relay connections.  
Trouble (Open): 6.0 VDC to 10.2 VDC  
D2071A transmits an Alarm Report for a trouble  
condition using a Mode 1 or Mode 2 circuit to monitor  
FACP trouble output or sprinkler valve tamper.  
When using the optional Initiating Circuit Alarm Relay,  
install a D136 Relay in Socket K6. The D136 provides a  
Form “C” dry contact, rated at 2 A maximum current at  
30 VDC (power from an independent supply). The relay  
activates (reverse state) when the Class A” Alarm  
Initiating Circuit (Zone 1) goes into an alarm condition.  
It deactivates when the circuit restores to normal.  
2.3.4  
Mode 1 and Mode 2 Restrictions  
Use Mode 3, not Mode 1, for sprinkler supervision  
(stand-alone) in NFPA 72 remote station installations.  
Only use Mode 2 when a NC valve tamper device must  
be used, and only on AHJ approval.  
Terminal 17 is the common (C) terminal.  
Terminal 16 is the normally closed (NC) terminal.  
Terminal 18 is the normally open (NO) terminal.  
Refer to Section 1.5 Listings and Approvals on page 4 for  
more information about modes and the NFPA  
requirements.  
In a normal state Terminals 16 and 17 have continuity.  
When activated, Terminals 17 and 18 have continuity.  
2.3.5  
Wiring  
2.4.1  
Installation  
Stand-alone Applications  
To install a D136 Relay into socket K6 (labeled ALARM  
RELAY):  
1. Connect the supervision devices such as valve  
tamper switches (up to 20 for each circuit) to  
Terminals 10 and 11 (Zone 2) or Terminals 11 and  
12 (Zone 3) as shown in Figures 4 through 6 on pages  
11 and 12.  
1. Slide back the D2071A cover to expose the socket  
(Figure 7 on page 13).  
The D136 Relay has two pins on one side and three  
pins on the other side.  
2. Program Class “B” Mode for the wiring  
configuration you use. Use no more than 100 Ω  
resistance on the sensor loops for the Class “B”  
circuits.  
2. Place the relay into the socket with the pins oriented  
as shown in Figure 7.  
3. Attach the relay flush left or flush right.  
12  
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Installation  
2.5.2  
Wiring  
Figure 7: Relay Sockets  
Terminal 14 is the common (C) terminal.  
Terminal 13 is the normally closed (NC) terminal.  
Terminal 15 is the normally open (NO) terminal.  
In a normal state, Terminals 13 and 14 have continuity.  
When activated, Terminals 14 and 15 have continuity.  
1
Only connect the low voltage power sources and devices  
to Terminals 13, 14, and 15.  
11  
12  
13  
14  
Do not use the D2071A standby battery to  
supply power for the circuit. In some slave  
communicator applications, the Phone Line  
Trouble Relay (Terminals 13 to 15) on the  
D2071A can be connected to a trouble  
zone input on the FACP.  
15  
16  
17  
18  
K5  
K6  
2.6  
Primary Power Supply  
2
1 - Trouble relay  
2.4.2 Wiring  
2 - Alarm relay  
Use Terminals 1 and 2 for primary power  
supply connections.  
Connect only low voltage power sources and devices to  
Terminals 16, 17, and 18. Do not use the D2071A  
Standby Battery to provide a power output for the  
circuit.  
Power the D2071A Control Panel using a 12 VAC or  
20 VA transformer and standby battery. You can also  
connect the D2071A to the 24 VDC output of an FACP.  
Use either method for NFPA 72 applications.  
2.5  
Phone Line Trouble Relay  
Do not connect the D2071A to a 12 VDC  
power supply of an existing FACP. Use the  
transformer and battery for 12 VAC Mode.  
Use Terminals 13, 14, and 15 for Phone Line Trouble  
Relay connections.  
To use the optional Phone Line Trouble Relay, install a  
D136 Relay in socket K5. The D136 has a Form “C” dry  
contact, rated at 2 A maximum current at 30 VDC  
(power from independent supply). The relay activates  
(reverse state) when a faulted condition appears on either  
the primary or alternate telephone lines, or when a  
communication failure occurs.  
Parallel Activation on Powerup: The Phone Line  
Trouble Buzzer, Phone Line Trouble Relay, and Phone  
Line LED briefly activate on AC or battery powerup to  
indicate the DACT is operational.  
2.6.1  
12 VAC Mode  
Connect a 12 VAC, 20 VA transformer to Terminals 1  
and 2 using 18 AWG (1.2 mm) stranded wire, maximum  
length 50 ft (15.3 m). Commercial fire applications  
require the D8004 Transformer Enclosure for the D1220  
Transformer or the D2071AmC Kit.  
The Phone Line Trouble Relay activates whenever the  
Phone Line Trouble Buzzer sounds. Refer to Section 1.8.6  
Phone Line Trouble Buzzer on page 7 for details on relay  
activation and restoral.  
2.5.1  
Installation  
The hardwire transformer mounted in the  
D4103R Enclosure, included in the  
D2071AC Kit, replaces the D1220  
Transformer. Ensure the 110 VAC or  
120 VAC power source is turned off when  
connecting the black and white transformer  
leads to the source. Connect the yellow  
leads from the transformer to Terminals 1  
and 2.  
To install a D136 Relay into the K5 socket (labeled  
“TROUBLE RELAY”):  
1. Slide back the D2071A cover.  
2. Place the relay into the socket with the pins oriented  
as shown in Item 1 in Figure 7.  
3. Install the relay flush left or right.  
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Installation  
Set the 12 V Mode to YES. Refer to Section 2.7.1 Battery  
for battery installation instructions.  
2.7  
Secondary Power Supply and  
Charging Circuit (12 VAC Mode Only)  
NFPA 72 applications require 110 VAC or 120 VAC,  
60 Hz commercial power for the transformer to be  
unswitched and from a reliable source. NFPA 72  
applications need a dedicated branch circuit to supply  
the 110 VAC or 120 VAC transformer power. Identify  
the method of disconnecting the circuit as a fire alarm  
control circuit. Only authorized personnel can  
disconnect the circuit.  
Use Terminals 4 and 5 for secondary power  
supply and charging circuit connections.  
2.7.1  
Battery  
The D2071A’s charging circuit is only calibrated for  
lead-acid type batteries. Do not connect D2071A to a  
battery when it is using 24 VDC from an existing  
FACP. The battery supplies power to the system during  
interruptions in primary power (AC) while in 12 VAC  
Mode.  
Never share the transformer with other  
equipment. Foreign grounds on the AC input  
damage the D2071A power circuit.  
For NFPA 72 applications, use a 12 VDC, 2.3 Ah,  
sealed, lead-acid, rechargeable battery (Model D1219).  
You can also use a 12 VDC, 7 Ah, sealed, lead-acid,  
rechargeable battery (Model D126) that exceeds the  
standby requirements.  
2.6.2  
24 VDC Mode  
Connect a 24 VDC, uninterrupted, regulated, auxiliary  
output from an FACP to Terminals 1 and 2. Set the  
12 V Mode to NO. Terminals 1 (+) and 2 (-) are polarity  
protected when the D2071A is programmed for the  
24 VDC Mode.  
Installation  
1. Install the battery in an upright position at the base  
of the metal enclosure.  
Do not connect a 12 VDC standby battery  
and do not connect earth ground to the  
D2071A when it is in 24 VDC Mode.  
2. Use the black lead to connect the negative side  
(black) to the D2071A Terminal 4.  
The discharge and recharge schedule in Table 4 shows  
the voltages at Terminals 1 and 2 used to generate  
Battery Reports with the D2071A in 24 VDC Mode. If  
the voltage falls below 11.1 VDC, the D2071A does not  
operate.  
3. Use the red lead to connect the positive side (red) to  
the D2071A Terminal 5.  
Parallel Activation on Powerup: The Phone Line  
Trouble Buzzer, Phone Line Trouble Relay, and Phone  
Line Trouble LED briefly activate on AC or battery  
powerup to indicate the DACT is operational.  
Table 4:  
24 VDC Battery Discharge and Recharge  
Schedule  
Replacement  
Discharge Cycle  
Under normal use, replace the battery every 3 to  
5 years.  
27.6 V  
21.8 V  
11.1 V  
FACP battery float voltage  
Battery Trouble Report  
Do not install the transformer in a power  
source that is routinely switched off. This  
does not comply with NFPA standards and  
causes heavy battery discharges that can  
result in premature failure.  
(TROUBLE ZN 9) Disable  
Recharge Cycle  
AC on  
24.7 V  
27.6 V  
Notes:  
FACP battery recharging begins  
Battery Restoral Report (RESTORAL ZN 9)  
FACP battery charged  
Supervision  
1. The source supervised is the 24 VDC input from the  
During an AC power loss, the battery supplies all power  
to the D2071A and slowly discharges. When the battery  
voltage drops below 11.8 VDC, the D2071A sends a  
TROUBLE ZN 9 Report to the receiver.  
FACP.  
2. This schedule applies to Terminals 1 and 2 on the  
D2071A.  
3. The actual voltage can vary 5%.  
After the AC is restored, the battery begins to charge.  
At 13.4 V, the D2071A sends a Battery Restoral Report  
(RESTORAL ZN 9).  
14  
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Installation  
Restoral ZN 9 Exceptions: If a battery is not connected communicator transmits data (Figure 8). After  
to the D2071A when AC power is connected, the control  
panel sends a RESTORAL ZN 9 Report to the receiver.  
A RESTORAL ZN 9 is also sent after the programmer  
disconnects from the D2071A.  
installation, confirm the D2071A seizes the line,  
acquires dial tone, and correctly reports to the receiver.  
Figure 8: RJ31X Wiring  
2
3
Charging Circuit  
The D2071A charges the battery with a float charge  
circuit using a maximum charging current of 300 mA.  
The battery discharge and recharge schedule (Table 5)  
shows voltages during the discharge and recharge cycles.  
1
4
R1  
1
2
3
4
5
6
7
8
R
T
Table 5:  
12 VDC Battery Discharge and Recharge  
Schedule  
Discharge Cycle  
13.8 V  
11.8 V  
8.5 V  
FACP battery float voltage  
T1  
Battery Trouble Report (TROUBLE ZN 9)  
Disables all processing and memory functions.  
Deep battery discharge can occur below this  
level.  
1 - Premises phone  
2 - RJ31X Module  
3 - Full modular phone jack  
4 - Incoming Telco line  
Recharge Cycle  
AC on  
9.0 V  
Battery recharging begins  
2.8.3  
Telephone Line Supervision  
Battery Trouble Report (only if the battery is  
discharged below 8.5 V)  
The D2071A monitors both the primary and alternate  
telephone lines while the communicator is idle by  
sniffing the line for trouble. Telephone line trouble is  
line voltage below 10 VDC with a current less than  
10 mA. If there is a report waiting to be transmitted, the  
D2071A does not sniff the telephone lines until the  
report is transmitted or a communication failure occurs.  
The D2071A reports a faulted condition on the primary  
telephone line as a TROUBLE ZN B and the alternate  
telephone line as a TROUBLE ZONE C.  
13.4 V  
13.8 V  
Notes:  
Battery Restoral Report (RESTORAL ZN 9)  
Battery charged  
1. The source supervised is the battery connected to the  
D2071A.  
2. Actual voltage can vary 15.  
2.7.2  
12 VAC Battery Discharge and Recharge  
Schedule  
Refer to Table 5 for the 2 VAC battery discharge and  
Each line is sniffed once a minute if both lines are good.  
If a line is determined to be in trouble, the D2071A  
steps up the test rate and sniffs once every 10 sec. If the  
trouble still exists after 15 samples (150 sec), the control  
panel sends a Trouble Report and activates the buzzer,  
Phone Fail LED, and Phone Line Trouble Relay (if  
installed). Refer to Section 2.5 Phone Line Trouble Relay  
on page 13 for installation instructions.  
recharge schedule.  
2.8  
Telephone Connections  
2.8.1  
Telephone Cord Installation  
Use a D161 or D162 Phone Cord to connect the primary  
telephone line to the D2071A Modular Jack (J1). Use a  
second D161 or D162 Phone Cord to connect the  
alternate telephone line to the D2071A Modular Jack  
(J2).  
The buzzer, LED, and relay deactivate after a trouble  
condition on the telephone line when the receiver  
acknowledges the Phone Line Trouble Report, or when  
the line returns to normal. If the D2071A attempts to  
transmit the Phone Line Trouble Report ten times  
without acknowledgment from the receiver, a  
communication failure occurs.  
For all applications, you must connect  
separate primary and alternate telephone  
lines to the D2071A.  
If the D2071A is in communication failure, either the  
primary and alternate telephone lines must be detected  
as normal and a report acknowledged by the receiver  
before the buzzer, LED, and relay deactivate.  
2.8.2  
Location  
To prevent the jamming of alarm and other reports, wire  
and locate the RJ31X or RJ38X jack so normal  
telephone use is temporarily interrupted while the  
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2.0  
Installation  
D2071A | Operations & Installation Guide |  
Refer to Section 6.0 Troubleshooting on page 24 for help in 2.8.5  
Notification  
determining the cause of telephone line problems.  
Do not connect registered equipment to party lines or  
coin-operated telephones. If the local telephone  
company requests notification before you connect the  
D2071A to the telephone network, supply the:  
The buzzer, light, and relay can remain activated for up  
to 24 h if the communications failure did not result  
from trouble conditions detected on the telephone lines,  
and no other report is transmitted before the next  
scheduled Test Report.  
particular line you are connecting the panel to,  
make, model, and serial number of the device, and  
FCC registration number (AJ9USA-61104-AL-E) and  
ringer equivalence (0.0B = AC, 1.3B = DC).  
2.8.4  
Call Routing  
After one failed attempt to transmit a report, the  
D2071A tries to transmit a TROUBLE ZN E Report in  
addition to the original report. After two failed attempts  
to reach the receiver, the D2071A switches from the  
primary to the alternate telephone line. During the  
switch, the D2071A tries dialing even if you did not  
program an alternate telephone number.  
If the telephone company makes changes in  
its communications facilities, equipment,  
operations, or procedures that can affect  
communicator performance, the telephone  
company is obligated to notify the user in  
writing.  
The D2071A continues alternating between the primary  
and alternate lines for a total of ten attempts. If the  
D2071A cannot make contact with the receiver after ten  
attempts, it goes into communications failure and  
activates the Phone Fail LED, Phone Line Trouble  
Buzzer, and Phone Line Trouble Relay (if installed). The  
time from the first attempt to the communications  
failure is up to 10 min.  
2.9  
Cable Tie Installation  
After making the necessary connections, secure all wires  
from the D2071A to the strain relief tab:  
1. String the cable tie through the middle of the  
H-shaped strain relief tab.  
2. Group the wires attached to the D2071A, ensuring  
RESTORAL ZN E is the only report transmitted after a  
communications failure. Any report in the D2071A  
buffer before a communications failure is not  
transmitted. The buffer is cleared.  
no wire is disconnected (Figure 9 on page 17).  
3. Wrap the cable tie around the wires and firmly  
secure the tie to the strain relief tab (Figure 10 on  
page 17).  
For all applications, program both a primary and an  
alternate telephone number using different numbers.  
Table 6 lists the call routing assignments.  
Mount the D2071A inside a UL Listed fire enclosure of  
appropriate size or, as the D2071A Enclosure is  
nonconductive, in the same enclosure with an existing  
FACP. Unless the monitored FACP is specifically listed  
or approved for use with the D2071A installed in the  
same enclosure, install the D2071A in a separate UL  
Listed enclosure.  
Table 6:  
Call Routing Assignments  
Attempt Routing  
1
Phone Number 1 Primary Line  
If installing the D2071A in the same enclosure with an  
existing FACP, leave room on the bottom of the  
enclosure for the battery. Do not mount the D2071A in a  
location where it restricts the flow of cooling air to the  
FACP power supply or a similar device.  
2
Phone Number 1 Primary Line  
Phone Number 2 Alternate Line  
Phone Number 1 Alternate Line  
Phone Number 2 Primary Line  
Phone Number 1 Primary Line  
Phone Number 2 Alternate Line  
Phone Number 1 Alternate Line  
Phone Number 2 Primary Line  
Phone Number 1 Primary Line  
3
4
5
6
When mounting the D2071A in a separate UL Listed  
enclosure such as the D4103R or D8109, connect the  
enclosure to the FACP by conduit not exceeding 20 ft  
(6 m). The D2071A can be mounted in the enclosure  
using any of the procedures described in Section 2.9.1  
Screw Mounting through Section 2.9.3 Adhesive Strip  
Mounting on page 17.  
7
8
9
10  
16  
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Installation  
2.9.3  
Adhesive Strip Mounting  
Figure 9: Inserting Cable Tie  
You can use two adhesive strips (provided) to mount the  
D2071A in the enclosure with the FACP, or in a separate  
enclosure.  
1. Select a location with a smooth, clean, and dry  
mounting surface.  
1
2. Position the D2071A so the back is facing you.  
3. Remove the protective backing from one side of the  
5 in. (12.7 cm) adhesive strip.  
4. Press the strip firmly to the back of the D2071A  
near the top edge.  
2
5. Remove the protective backing from the other side  
of the 5 in. (12.7 cm) adhesive strip.  
1 - Strain relief tab  
2 - Cable tie  
6. Press the strip firmly to the back of the D2071A  
near the bottom edge.  
Figure 10: Securing Cable Tie and Wires  
7. Bend back or remove any tabs in the enclosure that  
can prevent the D2071A from being securely  
mounted.  
2
1
8. Remove the remaining protective backing from the  
adhesive strips.  
9. Firmly press the D2071A to the location.  
2.10 End User Instruction Label  
Once the D2071A is connected to an FACP you can use  
the end user label (included). Because the D2071A does  
not have end user serviceable parts, the label instructs  
users to call for service if they cannot silence the  
D2071A from the FACP. Attach this label in a location  
that is easily visible such as the front of the FACP  
enclosure.  
1 - Strain relief tab  
2.9.1 Screw Mounting  
2 - Cable tie  
1. Select the mounting location in the enclosure.  
2. Position the D2071A in the desired location.  
3. Use a pencil to mark the mounting tab holes.  
4. Drill holes (1/8 in. [3.18 mm]) for the screws  
provided.  
5. Mount the D2071A using the two # 8 screws and  
washers provided.  
2.9.2  
D2002 Mounting Plate  
Use the D2002 Mounting Plate to mount the D2071A in  
a D4103R Enclosure provided with the D2071AC Kit.  
1. Use the four #6 screws (provided) to secure the plate  
to the four standoffs in the D4103R Enclosure.  
2. Use the two #8 screws (provided) to mount the  
D2071A to the mounting plate.  
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3.0 Programming  
D2071A | Operations & Installation Guide |  
3.0 Programming  
The information in this section is not intended to be a substitute for the D5200 Programmer Operation  
Manual (P/N: 74-06176-000). Become familiar with the D5200 Programmer Operation Manual before  
programming any Bosch product.  
When programming the D2071A DACT with the D5200 Programmer, ensure the programmer has the 2071 Product  
Handler Program. Refer to the D5200 Programmer Operation Manual for the updated D5200 instructions.  
3.1  
Navigating Handler and Program Records  
Access program items by navigating the programmer groups.  
Use the red [ENTER GROUP] and [EXIT GROUP] keys to move in and out of each group (Figure 11).  
Use the red [] and [] keys to scroll through the list of items at each group. Scroll through a list of available  
product handlers at the Product Handler Group. See the saved record titles at the Record Group. Program items  
are at the Program Item Group.  
Use the red [] and [] keys to move the cursor horizontally within one line of the LCD.  
Figure 11 is an example of using the navigational keys to move through the D2071 Program. Use these keys the  
same way for all product handlers.  
Figure 11: Program 2071 Navigation  
1
2
3
4
5
4112  
7112  
ENTER  
GROUP  
6112  
ENTER  
GROUP  
636  
2071 [##.##]  
NEWRECORD  
RECORD1  
RECORD2  
RECORD3  
DELETE  
2071  
Account #  
8112  
Transmit BFSK No  
DISKSTAT  
SECURITY  
UPDATE  
DELETE  
5200 OFF  
DTMF Dialing  
PriPre  
Yes  
EXIT  
GROUP  
ENTER  
EXIT  
GROUP  
PriPh#  
COPY  
AltPre  
VISMODE  
AltPh#  
LOCKRECORD  
12 Volt Mode  
Class B Mode  
Retard Time  
Reset Time  
Hrs Til Rpt  
Mins Til Rpt  
Yes  
3
0
0
0
0
1 - Password display  
4 - Record level  
2 - Program, company, revision, password entry display  
3 - Product handler level  
5 - Program item level  
18  
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D2071A | Operations & Installation Guide | 3.0  
Programming  
3.2  
Function Keys  
Table 8:  
Tones  
Table 7 identifies the six function keys that simplify  
using the programmer.  
Sound  
Signifies  
Click  
Short, sharp tone that occurs each time you  
press a key. The programmer does not click  
when you press [ON], [CAP LOCK], and  
[SHIFT].  
Short, single frequency tone sounds when you  
press [ENTER] and the D5200 accepts the  
change.  
Quick series of pips indicating you pressed an  
invalid key or made an inappropriate entry.  
Flat tone indicating a system error. Examples of  
typical system errors are:  
Table 7:  
Function Keys  
Key  
ON  
Use  
Pip  
Key switch that turns on the programmer.  
Does not power down the programmer. Turn  
off by selecting 5200 OFF in the Product  
Handlers Menu. Powers down automatically  
after the programmed Time Out time elapses.  
Switches programmer into Help Mode. Refer  
to the D5200 Programmer Operation Manual  
(P/N: 74-06176-000) for more information.  
Cancels changed items if you did not press  
[ENTER] to accept the change.  
Moves a copy of the record in the attached  
product to the D5200 Programmer.  
Tweedle  
Buzz  
HELP  
A product is not connected to the D5200  
when you attempt to copy or load it.  
The D5200 notifies you of a low battery  
condition.  
The D5200 announces it will automatically  
count down and turn off.  
You are attempting to delete a record or  
handler.  
You are entering into a product handler  
containing a Timeout Save Record. The  
Timeout Save Record was saved by the  
D5200 when it automatically turned off to  
save power.  
CANCEL  
RECV  
(COPY)  
SEND  
(LOAD)  
Moves a copy of the record in the D5200  
Programmer to a product being programmed.  
Erases an un-entered or entered program item  
data and replaces it with blank spaces.  
CLEAR  
Note: All function keys are red.  
3.3  
Data Keys  
Use the white keys on the keyboard for data entry.  
Programming before installing the phone  
lines might sound the buzzer.  
3.4  
Tones  
The D5200 Programmer emits four distinct sounds to  
notify users of key presses, data acceptance or rejection,  
and system errors (Table 8).  
You can program the D2071A before installation. If the  
D2071A is powered and not connected to a telephone  
line, the Phone Fail Buzzer sounds after approximately  
10 min. Power down the unit to silence the buzzer.  
3.5  
Editing a Record  
1. Scroll to the D2071 Product Handler from the  
Product Handlers Menu using [] or [] and press  
[ENTER GROUP].  
Program the D2071A using the D5200 Programmer  
with the D2071 Product Handler.  
2. Scroll to the appropriate record title using [] or []  
Before programming, read and become  
familiar with this section of the Operation  
and Installation Guide.  
] and press [ENTER GROUP].  
3. Use [] or [] to scroll to the appropriate program.  
Edit the entry and press [ENTER] to input the data.  
4. Press [EXIT GROUP] to exit the record. The Save  
display appears if changes were made to any  
program item entries in the record.  
3.7  
Entering the 2071 Handler  
1. At the Product Handler Level, press [↓] and scroll  
down to 2071.  
3.6  
Programmer Connection  
2. Press [ENTER GROUP].  
3. When the cursor appears on the NEWRECORD  
prompt, press [ENTER GROUP].  
Access the four-pin programmer connector (J3) by  
sliding back the D2071As cover. This connector is  
located next to Terminal 1 (refer to Figure 1 on page 7).  
The D2071A is ready for programming after connecting  
it to the programmer; it is not necessary to reset the  
D2071A before loading to or copying from the panel.  
Account# appears.  
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19  
 
4.0 Program Record  
D2071A | Operations & Installation Guide |  
3.8  
Program Modules  
4.0 Program Record  
Unlike larger Bosch products, the D2071 Product  
Handler does not group program items in program  
modules. When you enter the 2071 program, you are in  
the Program Item Level.  
The 2071 Program Record selects several functions of  
the D2071A DACT, including the account number that:  
identifies the location during communication,  
decides how the telephone number is dialed,  
determines how the D2071A is powered, and  
controls the loop response times.  
3.9  
Editing the Program Record  
Each D2071A DACT programming option is listed as it  
appears in the Programmer Display. The default, a set of  
selections, and a description follows.  
Account #  
Default:  
Blank  
The selections are the only entries available for a  
particular program option. For example, Account #  
only uses numbers 0 through 9, letters B through F, or  
no entry. Do not use unlisted entries.  
Selections: 0 to 999, BBB to FFF, or Blank  
Ensure all entries are right-justified. The blank entry,  
equaling no account number, sends 000 in pulse that  
sends nothing in the BFSK format.  
To edit program options, change the entry and press  
[ENTER]. If the entry is valid, the programmer moves  
the cursor to the next prompt. When all program  
options in the record are edited, the programmer returns  
to the first program option in the record.  
Transmit BFSK  
Default:  
Yes  
You can exit from any point within the program by  
pressing [EXIT GROUP] until PRODUCT HANDLERS  
appears on the D5200 Programmer.  
Selections: Yes or No  
Yes  
No  
Transmit in BFSK format with  
2300 Hz acknowledgement.  
Transmit in fast, single-round,  
expanded pulsed format with a  
checksum digit and 2300 Hz  
acknowledgement.  
Use to select the reporting format.  
DTMF Dialing  
Default:  
Yes  
Selections: Yes or No  
Yes  
Dual tone multi-frequency dialing of  
telephone numbers.  
No  
Pulse dialing of telephone numbers.  
PriPre  
Default:  
Blank  
Selections: 0 to 9, B to F, or Blank  
Blank No prefix or area code. A delay up  
to 7 sec is automatically inserted in  
front of the prefix.  
Use to select the prefix for the primary receiver  
telephone number. You can enter up to nine characters.  
Refer to Table 9 on page 21 for other dialing character  
selections.  
20  
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D2071A | Operations & Installation Guide | 4.0  
Program Record  
Table 9:  
Special Dialing Characters  
When programming the primary and  
alternate telephone numbers, ensure the  
primary telephone number is different from  
the alternate telephone number.  
Selection Dialing Effect  
Description  
B
(*) character  
Accesses special  
telephone features.  
C
3-sec pause  
While dialing, inserts a  
3-sec pause between  
digits.  
12 V Mode  
Default:  
Yes  
D
E
F
7-sec dial tone Waits up to 7 sec for a  
wait  
(#) character  
Selections: Yes or No  
dial tone before dialing.  
Accesses special  
telephone features.  
Used when accessing  
some long-distance  
carriers while using  
rotary-dial phone lines.  
Yes  
No  
12 VAC, 20 VA, 60 Hz transformer  
operation.  
Alternates  
between  
rotary and  
DTMF  
24 VDC supply from an existing  
FACP.  
Use to enable either the 12 V Mode or 24 V Mode.  
PriPh#  
Class B Mode  
Default:  
Blank  
Default:  
3
Selections: 0 to 9, B to F, or Blank  
Selections: 1 to 3  
Use to select the primary receiver telephone number.  
You can enter up to seven characters. Refer to Table 9 for  
other dialing character selections.  
1
2
3
Mode 1 not acceptable for  
stand-alone applications.  
Mode 2 has restricted use for  
stand-alone applications.  
When programming the primary and  
alternate telephone numbers, ensure the  
primary telephone number is different from  
the alternate telephone number.  
Mode 3 is required for most  
stand-alone applications.  
AltPri  
Use to program the operating mode for the Class “B”  
Supervisory Circuits (Zones 2 and 3).  
Default:  
Selections: 0 to 9, B to F, or Blank  
Blank No prefix or area code. A delay of  
Blank  
For detailed mode specifications, refer to Section 2.3  
Zones 2 and 3, Supervisory Circuits beginning on page 11  
for installation instructions.  
up to 7 sec is automatically inserted  
in front of the prefix.  
Retard Time  
Default:  
0
Use to select the prefix for the alternate receiver  
telephone number. You can enter up to nine characters.  
Refer to Table 9 for other dialing character selections.  
Selections: 0 to 90  
Use to program the retard timer for the Class A” Alarm  
Initiating Circuit (Zone 1). Enter the number of seconds  
you want for the retard time. After an alarm condition is  
detected on the sensor loops, the retard timer starts. An  
Alarm Report is not transmitted until the retard timer  
reaches the value entered in Retard Time. If the faulted  
condition restores before the retard timer reaches the  
value entered in Retard Time, the Alarm Report is not  
transmitted.  
AltPh#  
Default:  
Blank  
Selections: 0 to 9, B to F, or Blank  
Use to select the alternate receiver telephone number.  
You can enter up to seven characters. Refer to Table 9 for  
other dialing character selections.  
Refer to Section 2.2.2 Retard and Reset Times on pages 10  
and 11 for details. Refer to the appropriate NFPA  
Standard or the local AHJ for acceptable retard times.  
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D2071A | Operations & Installation Guide |4.0 Program Record  
Reset Time  
Default:  
0
Selections: 0 to 90  
Use to program the reset timer for the Class A” Alarm  
Initiating Circuit (Zone 1). Enter the number of seconds  
you want for the reset time. Before the retard timer sets  
to zero, the circuit must be in a non-alarm (restored or  
trouble) condition for the number of seconds entered in  
Reset Time.  
For a detailed explanation of the reset timer, refer to  
Section 2.2.2 Retard and Reset Times on pages 10 and 11.  
Hrs Til Rpt  
Default:  
0
Selections: 0 to 25  
Use to program the number of hours until the first Test  
Report is sent. Program the number of hours from the  
time the control panel is powered up (or reset with the  
programmer) to the time the first Test Report is sent.  
If both Hrs Til Rpt and Min Til Rpt are defaulted at 0,  
the first Test Report is sent in 12 h and all subsequent  
reports are sent at 24-hour intervals thereafter.  
Mins Til Rpt  
Default:  
0
Selections: 0 to 59  
Use to program the number of minutes until the first  
Test Report is sent. Program the number of additional  
minutes you want the first Test Report delayed beyond  
the hours programmed in Hrs Til Rpt.  
Test Timer Default Delay: When the unit is powered  
up, the first test occurs 12 h later unless you program a  
delay in Hrs Til Rpt or Mins Til Rpt.  
22  
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D2071A | Operations & Installation Guide | 5.0  
Receiver Reports  
5.0 Receiver Reports  
Table 10: Receiver Reports  
Title  
Description  
ALARM ZN 1  
Closure or short between the two loops of the Class “A” Alarm Initiating Circuit. This report is delayed  
by the time specified in Retard Time (for waterflow alarm applications only).  
ALARM ZN 2  
ALARM ZN 3  
Mode 1: Open on the Class “B” Supervisory Circuit (Terminals 10 and 11).  
Mode 2: Resistance on the Class “B” Supervisory Circuit (Terminals 10 and 11).  
Mode 3: Closure or short between terminals or a ground fault on the positive (+) side of the Class “B”  
Supervisory Circuit (Terminals 10 and 11).  
Mode 1: Open on the Class “B” Supervisory Circuit (Terminals 10 and 11).  
Mode 2: Resistance on the Class “B” Supervisory Circuit Terminals 10 and 11).  
Mode 3: Closure or short between terminals or a ground fault on the positive (+) side of the Class “B”  
Supervisory Circuit (Terminals 10 and 11).  
RESTORAL ZN 1 The Class “A” Alarm Initiating Circuit returned to normal from an alarm or trouble condition. This report is  
delayed by the time specified in Reset Time when the circuit restores from an alarm condition.  
RESTORAL ZN 2 All modes: Trouble or alarm condition on Zone 2 cleared.  
RESTORAL ZN 3 All modes: Trouble or alarm condition on Zone 3 cleared.  
RESTORAL ZN 9 12 VAC Mode: Report is transmitted after AC power is restored, the control panel is programmed, or  
the battery is changed or recharged.  
24 VDC Mode: Report is transmitted when the DC power input is applied, when the DC power input  
reaches 27.6 VDC after falling below 24.3 VDC, or after programming the control panel.  
RESTORAL ZN B Primary phone line restored.  
RESTORAL ZN C Alternate phone line restored.  
RESTORAL ZN E Normal test timer activation.  
TROUBLE ZN 1  
TROUBLE ZN 2  
Break or ground on either loop of the Class “A” Alarm Initiating Circuit (no retard time applies).  
Mode 1: Not available.  
Mode 2: Class B circuit, Terminals 10 and 11, open.  
Mode 3: Class B circuit, Terminals 10 and 11, open.  
Mode 1: Not available.  
Mode 2: Class “B” Supervisory Circuit, Terminals 11 and 12, open.  
Mode 3: Class “B” Supervisory Circuit, Terminals 11 and 12, open.  
12 VAC Mode: Low battery  
TROUBLE ZN 3  
TROUBLE ZN 9  
24 VDC Mode: DC power input less than 24.3 V  
Open or short on primary telephone line.  
TROUBLE ZN B  
TROUBLE ZN C  
TROUBLE ZN E  
Open or short on alternate telephone line.  
Communications failure after ten attempts to transmit a report. The reports in the D2071A buffer when a  
communications failure occurs are not transmitted. The buffer is cleared.  
or  
Test timer failed to report on the first attempt.  
or  
When received in the same transmission (telephone call) with another report, indicates the other  
report(s) in the transmission did not get through on the first attempt.  
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6.0  
Troubleshooting  
D2071A | Operations & Installation Guide |  
6.0 Troubleshooting  
Table 11: Communications Failures  
To help prevent problems, read the preceding sections of  
this guide and confirm the control panel is correctly  
installed and programmed.  
Symptom  
Solution  
The line rings but the  
receiver does not  
pick up.  
Confirm the lines are  
correctly connected to the  
receiver.  
6.1  
Phone Line Trouble Buzzer, LED, and  
Relay Activated  
Confirm the correct prefixes  
and telephone numbers for  
the receiver are programmed  
into the D2071A.  
The Phone Line Trouble and Failure to Communicate  
(communications failure) activate the Phone Line  
Trouble Buzzer, LED, and Relay.  
The D2071A reaches  
a busy signal for all  
ten attempts to reach  
the receiver.  
Confirm the correct prefixes  
and telephone numbers for  
the receiver are programmed  
into the D2071A.  
The receiver’s call load might  
be too great. Additional  
telephone lines might be  
needed for the receiver.  
6.2.1  
Phone Line Trouble  
If the Phone Line Trouble Buzzer, LED, and Relay  
activate or a TROUBLE ZN B or TROUBLE ZN C is  
received:  
1. Ensure the cords for both lines are correctly  
connected to the RJ31X or RJ38X jacks and the  
D2071A.  
Confirm the telephone lines  
are not shorted between the  
telephone company’s  
2. Ensure the RJ31X or RJ38X jacks are correctly  
wired. The incoming telephone line must be wired  
to Terminals 4 and 5. The in-house telephone  
system must be wired to Terminals 1 and 8.  
equipment and the receiver.  
Place a call to the number for  
the receiver. If you hear the  
line ring (but the ring  
detector does not light) or if  
you hear a busy signal and  
the green on line (OL)  
indicator is not lit, call the  
telephone company for  
service.  
3. Ensure all telephones are on hook and not on hold.  
Some telephone company systems automatically  
drop the voltage and current when telephones are  
left off hook for extended periods. Generally,  
placing the telephone on hook restores the  
telephone line.  
The receiver answers  
the call and provides  
an acknowledgment  
tone, but the  
communicator does  
not transmit its  
Confirm the receiver is  
producing a 2300 Hz  
acknowledgment tone.  
If you perform Steps 1 through 3 and the telephone line  
is still not restored, meter the telephone line’s voltage  
and current. The telephone line should meter a  
minimum of 20 VDC when the D2071A is idle (on  
hook). If the voltage is below 20 VDC, meter for  
current. The telephone line must have a minimum  
current of 10 mA. If the readings are below the  
minimum values, contact your telephone company  
repair service.  
reports.  
The receiver answers  
the call and provides  
an initial handshake  
acknowledgment  
tone, but does not  
acknowledge the  
D2071A Report  
transmission with a  
kiss-off  
Confirm the receiver is  
compatible with the format  
the D2071A is using (either  
BFSK or Superfast). Refer to  
the Transmit BFSK function  
in Section 4.0 Program  
Record Transmit on page  
20.  
6.2.2  
Communications Failure  
Communications failure occurs after ten unsuccessful  
attempts to reach the receiver. Follow the procedure  
described in Section 6.2.1 Phone Line Trouble to confirm  
the telephone lines at the D2071A installation are  
working properly.  
Noisy telephone lines can  
interfere with report  
acknowledgment  
tone.  
transmission. Try making a  
voice call on the line to  
confirm the noisy condition.  
You might need to have the  
telephone company check  
the lines.  
If the telephone lines are working, monitor them  
(preferably at the receiver) for one of the symptoms  
listed in Table 11.  
24  
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D2071A | Operations & Installation Guide | 6.0  
Troubleshooting  
6.3  
Trouble Zone E  
6.4  
Programming with the D5200  
Programmer  
Refer Table 10 on page 23 for the causes of the  
TROUBLE ZN E Report.  
Before programming the D2071A, ensure the D2071  
Product Handler is loaded in the programmer. Become  
familiar with the basic operation of the programmer as  
described in the D5200 Operation Manual  
(P/N: 74-06255-000).  
If TROUBLE ZN E Reports regularly accompany other  
reports:  
After two attempts to reach the receiver, a D2071A  
switches to the alternate phone line for the third  
attempt. Confirm the primary phone is a DTMF line.  
If you still experience problems, press [SEND LOAD].  
Plug in 2071appears on the programmer.  
If the D2071A is programmed for DTMF dialing and  
you confirm it is connected to DTMF telephone  
lines, try programming it for pulse dialing. The local  
telephone company might not be compatible with the  
D2071A’s dialing speed.  
Confirm the:  
1. D5206 Adapter is security plugged into the  
D2071A.  
2. D5203 Programmer Cord is securely plugged into  
the D5206 Adapter.  
The D2071A might be getting a busy signal at the  
first dialing attempt. The receiver’s call load might  
be too great. Additional telephone lines might be  
needed for the receiver.  
3. D5203 Programmer Cord is plugged into the  
communicator port on the programmer.  
4. D2071A is connected to the appropriate power  
supply.  
Noisy telephone lines might be interfering with  
report transmission. Try making a voice call on the  
line to confirm the noisy condition. You might need  
to have the telephone company check the lines.  
Confirm the Zone 1 Style D initiating circuit is  
normal. Refer to Section 2.2 Zone 1, Alarm Initiating  
Circuit on page 10.  
Confirm the Zones 2 and 3 Style A supervisory  
circuits are normal. Refer to Section 2.3 Zones 2 and 3,  
Supervisory Circuits on page 11.  
If using the 24 V Mode, test Terminals 1 and 2 for  
proper input voltage. Refer to Section 2.6.2 24 VDC  
Mode on page 14.  
If using 12 V Mode, test Terminals 1 and 2 for  
proper input voltage. Refer to Section 2.6.1 12 VAC  
Mode on page 13.  
If using the 12 V Mode, test the battery for proper  
float voltage. Refer to Section 2.7 Secondary Power  
Supply and Charging Circuit (12 VAC Mode Only) on  
pages 14 and 5.  
Ensure the battery leads are connected and not  
corroded. Refer to Section 2.7 Secondary Power Supply  
and Charging Circuit (12 VAC Mode Only).  
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25  
 
6.0  
Troubleshooting  
D2071A | Operations & Installation Guide |  
6.5  
Zones Problems  
6.6  
Trouble Zone 9  
A TROUBLE ZN 9 Report tells you there is a problem  
with the battery when the D2071A is in 12 VAC Mode.  
It also indicates there is a problem with the power  
supply in the 24 VDC Mode.  
Table 12: Zone Problems  
Zone 1 Alarm Initiating Circuit  
Solution  
Symptom  
6.6.1  
12 VAC Mode (Battery and Transformer)  
Does not go into  
alarm.  
Maintain a short between Loop ”A”  
(Terminals 6 and 7) and Loop “B”  
(Terminals 8 and 9) for at least the  
time programmed in Retard Time.  
When a TROUBLE ZN 9 Report occurs in 12 VAC  
Mode:  
1. Confirm there is at least 12 VAC on Terminals 1  
and 2.  
Does not  
The circuit must remain normal for at  
immediately restore least the time programmed in Reset  
after an alarm.  
Remains in trouble  
or alarm with all  
devices connected  
to the circuit  
Time.  
2. Ensure the outlet the transformer is plugged into  
meters between 110 VAC and 120 VAC.  
An open or ground on the circuit  
causes a Trouble Report.  
3. Confirm the output for the transformer connected to  
Terminals 1 and 2 is rated for 12 VAC and at least  
20 VA.  
Remove the circuit loops from the  
D2071A and meter them for  
continuity. There should be no  
more than 100 resistance  
between the wires that connect to  
Terminals 6 and 7 and between  
the wires that connect to  
normal.  
4. Disconnect the transformer from Terminals 1 and 2  
and meter the battery at Terminals 3 and 4. A fully  
charged battery should show 13.8 V.  
Terminals 8 and 9.  
5. Ensure the battery is a 12 V sealed, lead-acid type. It  
should be rated at 2.3 Ah or 7 Ah or greater,  
depending on the NFPA classification of the  
installation.  
With the wires for the circuit  
loops still removed from the  
D2071A, meter them for  
continuity to ground.  
Zone 2 or 3 Supervisory Circuit  
Solution  
6.6.2  
24 VDC Mode (Connection to FACP)  
Symptom  
When a TROUBLE ZN 9 Report occurs in 24 VDC  
Mode:  
Remains in trouble  
or alarm with all  
devices connected  
to the circuit  
Confirm the circuit is wired for the  
mode you selected in the  
Class “B” Mode.  
1. Confirm Terminals 1 and 2 have 27.6 VDC.  
Copy the program from the  
2. Ensure the earth ground is not connected to  
Terminal 3.  
normal.  
D2071A to confirm the Class “B”  
Mode is correctly programmed.  
3. Confirm Terminals 4 and 5 are not connected to a  
battery.  
An open on the circuits causes a  
Trouble Report for Modes 2 and 3,  
and an Alarm Report for Mode 1. A  
ground can cause an Alarm Report  
for Modes 2 and 3.  
4. Confirm program item 12 V Mode is set to NO.  
Remove the circuit loops from the  
D2071A and meter them for  
continuity. There should be no  
more than 100 plus the value of  
the resistors in the circuit  
between the wires that connect to  
Terminals 10 and 11, or between  
the wires that connect to  
Terminals 11 and 12.  
With the wires for the circuit  
loops still removed from the  
D2071A, meter them for  
continuity to ground.  
26  
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D2071A | Operations & Installation Guide | 7.0  
Specifications  
7.0 Specifications  
Table 13: Specifications  
Power Input  
12 VAC, 20 VA with 12 VDC battery  
24 VDC  
Operating Current  
Specification  
12 VAC Mode  
24 VAC Mode  
Idle Current  
29.5 mA  
30.0 mA  
N/A  
Battery Charging  
51.0 mA  
Alarm with Relay  
50.0 mA or 110 mA  
31.5 mA or 79.0 mA  
82.0 mA or 120.0 mA  
54.0 mA or 110 mA  
110 mA or 160 mA  
55.5 mA or 102 mA  
61.0 mA or 115 mA  
32.0 mA or 80.0 mA  
84.5 mA or 140 mA  
55.5 mA or 110 mA  
140 mA or 170 mA  
58.0 mA or 140 mA  
Alarm without Relay  
Phone Trouble with Relay  
Phone Trouble without Relay  
Alarm and Trouble with Relay  
Alarm and Trouble without Relay  
12 V Mode: 8.5 VDC  
24 V Mode: 11.1 VDC  
Minimum Panel  
Operation Voltage  
Zone 1 Voltage  
Multi-meter in parallel with normal loop Terminals 6 and 7 (-) and normal loop Terminals 8 and 9 (+).  
Normal: 1.92 VDC  
Alarm: 0.3 VDC  
Open: N/A  
Response Time: 0.2 to 90 sec, depending on the retard or reset time  
Zones 2 and 3  
Voltages  
Multi-meter in parallel with normal loop Terminals 10 and 11 (ZN 2), 11 and 12 (ZN 3).  
Mode 1  
Normal: 0.0 VDC  
Alarm (Open): 1.8 VDC  
Response time: approximately 2 to 4 sec  
Mode 2  
Normal: 0.0 VDC  
Alarm (Resist): 1.8 VDC  
Trouble (Break): 9.3 VDC  
Response time: approximately 2 to 4 sec  
Mode 3  
Normal: 5.8 VDC  
Alarm (Closed): 1.7 VDC  
Trouble (Open): 10.3 VDC  
Response time: approximately 2 to 4 sec  
Minimum: 20 VDC  
Phone Voltage  
Normal: 48 VDC to 52 VDC; 24 VDC to 26 VDC  
+32°F to +120°F (0°C to +49°C)  
Operating  
Temperature  
Enclosure  
Color: red  
Size (L x W): 7.8 in. x 4.4 in. (20.0 cm x 11.2 cm) including mounting tabs  
Material: non-conductive plastic ABS UL94V-O  
Refer to NEC, NFPA 70, Article 760 for wire specifications.  
D1220 Transformer wiring distances:  
Wire  
Specifications  
18 AWG (1.2 mm)  
16 AWG (1.5 mm)  
14 AWG (1.8 mm)  
12 AWG (2.3 mm)  
250 ft (76.2 m) maximum  
374 ft (114 m) maximum  
600 ft (182.9 m) maximum  
1000 ft (304.8 m) maximum  
Bosch | 09/04 | 74-06200-000-F  
27  
 
Bosch  
130 Perinton Parkway  
Fairport, NY 14450-9199 USA  
Customer Service: (800) 289-0096  
Technical Support: (888) 886-6189  
© 2004 Bosch  
74-06200-000-F  
 

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