Section 365-785-201 Equipment Issue 1 Telecommunications Group Third Printing, December 2006 12-Channel (3657-85) and 6-Channel (3657-86) 2-Wire Foreign Exchange Subscriber and Dial Pulse Originating Unit for E1 CONTENTS PAGE Part 1. GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Part 2. INSPECTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Part 3. APPLICATION GUIDELINES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Part 4. CIRCUIT DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Part 5. INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Part 6. OPTIONING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Part 7. TECHNICAL ASSISTANCE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Part 8. WARRANTY & CUSTOMER SERVICE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Part 9. SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 3657−85 123 4 5 6 7 8910 11 12 + FXS BUSY FXS Figure 1. 3657-85 FXS Front Panel FXS 3 5 3657-86 1 + 2 BUSY 4 6 Figure 2. 3657-86 FXS Front Panel �2006 Charles Industries Ltd. All rights reserved. Printed in United States of America. The availability of features and technical specifications herein subject to change without notice. Page 1 of 16 Section 365-785-201 1. GENERAL 1.1 Document Purpose This document provides general, installation and testing information for the 12-Channel and 6-Channel 2-Wire (2W) Foreign Exchange Subscriber (FXS) and Dial Pulse Originating (DPO) Unit. This document covers model numbers 3657-85 and 3657-86. 1.2 Equipment Function The 2-wire FXS/DPO unit is part of the 360-80 Intelligent Channel Bank (ICB), and is one of several types of channel units available for the 360-80 ICB. 1.3 Equipment Location/Mounting The 3657-85 plugs into any full size slot of the Charles Industries 360-80 ICB. The 3657-86 plugs into the half- size slot of the Charles Industries 360-80 ICB. This unit requires an issue 3 or later ICB shelf. 1.4 Equipment Features The FXS/DPO provides the following features: � Each of the circuits on the FXS can be independently configured for a 2W FXS, MEGACOM or DPO application � In FXS mode, optional loop start or ground start � In the MEGACOM applications, each circuit can be configured for loop start, ground start immediate or wink � Each circuit can operate independently in the DPO mode as a 2 wire loop with reverse battery supervision application. � Optional network per-channel loopback � Temperature hardened (−40� to +65� C) � Prescription attenuation for the transmit and receive levels � A-law encoding � 900 or 600 ohm impedance � Front panel BUSY LED, indicates BUSY/IDLE status � Automatic trunk processing during a carrier failure � Compliance with ITU−T Q.421 � Complies with FCC part 68 and UL 1950, FCC part 15. 1.5 Control Interface This unit is managed through the craft port or the Network Management Software (NMS), which controls the pro- visioning of the unit and obtains status information from the unit. Provisioning is described in the Optioning sec- tion of this document. For operation, see the craft port or NMS documentation. This unit will maintain its default provisioning until that provisioning is altered through the control interface. If this unit’s provisioning is changed, it will maintain the new provisioning even if power is lost. If replaced with a new unit, the new unit will default to the same provisioning as was set for the prior unit. If this unit is installed in a loca- tion that was used by a different type of unit, this unit will use its own default provisioning. 1.6 Indicators/Configuration Options with NMS and ICB Management Software This unit provides a variety of status information. The following is a list of all status indicators; � Per channel Busy LED state (On, Off) 2 Section 365-785-201 � Per channel time slot used (1 through 15, 17 through 31, none) � Per channel unit mode (FXS, MEGACOM, DPO) � Per channel FXS interface mode (loop start, ground start) � Per channel interface impedance (600, 900) � Per channel transmit level TLP setting (−10 to +6 dBm in 0.1 dBm increments) � Per channel receive level TLP setting (−15 to +1.0 dBm in 0.1 dBm increments) � Per channel loopback (loopback, release) � Per channel CGAI (Idle, Busy) � Per channel CGAD (Idle, Busy) � Per channel MEGACOM ground start initiate (Immediate, wink) or loop start 2. INSPECTION 2.1 Inspect for Damages Inspect the equipment thoroughly upon delivery. If the equipment has been damaged in transit, immediately re- port the extent of damage to the transportation company. 2.2 Equipment Identification Charles Industries’ equipment is identified by a model and issue number imprinted on the front panel or located elsewhere on the equipment. Each time a major engineering design change is made on the equipment, the issue number is advanced by 1 and imprinted on subsequent units manufactured. Therefore, be sure to include both the model number and its issue number when making inquiries about the equipment. 2.3 Static Concerns Each module is shipped in static-protective packaging to prevent damages from electrostatic charges. Use ap- proved static-preventive measures, such as static-conductive wrist straps and a static-dissipative mat, when han- dling modules outside of their protective packaging. A module intended for future use should be tested as soon as possible and returned to its original protective packaging for storage. STATIC-SENSITIVE This equipment contains static-sensitive electronic devices. To prevent electrostatic charges from damaging static-sensitive units: � Use approved static-preventive measures (such as static-conductive wrist straps and static-dissipa- tive mats) at all times whenever touching units outside of their original, shipped, protective packaging. � Do not ship or store units near strong electrostatic, electromagnetic, or magnetic fields. � Always use the original static-protective packaging for shipping or storage. Return a tested unit to its original protective packaging for storage. 3. APPLICATION GUIDELINES 3.1 Foreign Exchange (FX) Channel Units FX channel units are available in both Station (FXS) and Office (FXO) versions. FX units operate with either loop or ground start signaling. FXS units provide talk battery and ringing toward the station equipment and detect off-hook and address signaling (dialing) from the station equipment. FXS units will generally connect to telephone instruments or PBX/Analog trunk circuits. 3 Section 365-785-201 360−80 360−80 2W E1 Facility PBX Class 5 2W 2W Switch Trunk FXS FXO Line Circuit Circuit Figure 3. Typical FX (Foreign Exchange) Arrangement 360−80 360−80 2W E1 Facility PBX 2W 2W Line FXO FXS Circuit Figure 4. Typical OPX (Off-Premises Extension) Arrangement 360−80 2W E1 Facility PBX IXC 2W Trunk Switch FXS Circuit Figure 5. Access to IXC Switched Services 3.2 Loop Reverse Battery (DPO, DPT) Channel Units These units have historically been used for one-way interoffice trunk circuits. The DPO unit provides talk battery toward the trunk circuit and reverses the battery for supervision purposes. The DPT unit provides loop open/clo- sure toward the trunk circuit and detects battery reversals. DPO units can be used to connect to Class 5 Central Office DID trunks. See Figure 6 & Figure 7. End Office Toll Office Terminating Originating 360−80 360−80 * * E1 Facility Trunk 2W 2W Trunk DPT DPO Circuit Circuit *Either end could be replaced with an E&M circuit depending on the trunk interface. Figure 6. Typical One-Way Interoffice Trunk Application 360−80 E1 Class 5 CPE 2W DPO DID Switch Line Circuit PBX/ACD Figure 7. Typical DPO Application (used to access Class 5 DID line circuit) 4 Section 365-785-201 3.3 MEGACOM Channel Units 360−80 E1 Facility 4ESS 2W Switch MEGACOM Telephone or Key Equipment Figure 8. Typical MEGACOM Application 4. CIRCUIT DESCRIPTION The following describes one of the circuits on the FXS and can be considered typical of any of the circuits. 4.1 Voice Operation 4.1.1. Incoming Voice Operation, All Modes Each circuit, or channel, of the unit receives digital voice and signaling information from the E1 facility interface unit of the ICB. The digital voice information is converted to analog voice information and conveyed to the level adjusting circuit. The range of the received voice information can be adjusted for receive transmission level point (TLP) of +1 to –15 dBm. The voice information goes through a hybrid, which transmits it to the two wire transmis- sion facilities. The impedance of the hybrid can be configured for either a balanced 600 or 900 ohm facility. 4.1.2. Outgoing Voice Operation, All Modes Analog voice information sent from the the two-wire transmission facility is passed to the 600 or 900 ohm imped- ance matching hybrid, and is then sent to the level adjusting circuit. The transmit TLP level range that can be ac- commodated is from +6 to −10 dBm. The analog voice information is converted to digital and multiplexed with the other channels and sent to the E1 facility interface unit to be transmitted to the far-end equipment. 4.2 FXS Signalling 4.2.1. Incoming calls, ground start mode An incoming call is started on the E1 facility interface side of the ICB from the far end. The digital signaling infor- mation from the E1 facility interface unit is converted into the A and B signaling highway information on the unit (see Table 1). The incoming call starts with the local station equipment ringing, but ringing cannot be applied to the ring lead unless the tip lead is referenced to ground. In ground start, the far end signals a tip ground by changing the A highway to a 0. The unit responds by applying a ground reference to the tip lead. The incoming A signaling highway is used to determine the state of the tip ground condition and the B highway is used to determine when to apply ringing voltage to the ring lead. When the incoming A signaling highway is 1 and the incoming B signaling highway is 1, only –48VDC will be applied to the ring lead. When the A signaling high- way is 0 and the B signaling highway is 0, the tip lead will have a ground reference on it and the ring lead will have ringing voltage applied to it. The incoming B highway reflects the ringing cadence. The outgoing A highway reflects the on-hook/off-hook state of the local station equipment and the outgoing B highway remains at 1 and is not used in this scenario. See Table 1. Table 1. Incoming calls, ground start Analog output Incoming Call progress Outgoing Analog input (Backward) (Forward) A B A B Tip open, no ringing 1 1 Ground start idle 0 1 On-hook, no ring ground Tip ground, no ringing 0 1 Tip ground 0 1 On-hook, no ring ground 5 Section 365-785-201 Tip ground, ringing 0 0/1 Ringing/no ringing 0 1 On-hook, no ring ground Tip ground, no ringing 0 1 busy 1 1 Off-hook, no ring ground Tip open, no ringing 1 1 Idle 0 1 On-hook, no ring ground Tip ground − − Forced busy 0 0 — 4.2.2. Incoming calls, loop start mode If configured for loop start, the tip lead is always at ground, no matter what state the B signaling highway is in. The A highway is used to determine when to apply ringing voltage to the ring lead. When the A signaling highway is 1, only −48 VDC will be applied to the ring lead (normal talk battery). When the A signaling highway is 0, the ring lead will also have ringing voltage applied to it. The incoming A highway reflects the ringing cadence. The outgoing A highway reflects the on-hook/off-hook state of the local station equipment and the outgoing B highway remains at 0 (not used in this scenario). See Table 2. Table 2. Incoming calls, loop start Analog output Call progress Analog input Incoming Outgoing (Backward) (Forward) A B A B Tip ground, no ringing 1 0 Loop start idle 1 0 On-hook Tip ground, ringing 0/1 0 Ringing/no ringing 1 0 On-hook Tip ground, no ringing 1 0 Busy 0 0 Off-hook Tip ground, no ringing 1 0 Idle 1 0 On-hook Tip ground (existing) − − Forced busy 0 0 — 4.2.3. Outgoing calls, ground start mode At idle, the local station equipment (see Table 3) will be in an idle condition (no loop closure), and with no ground applied to the ring lead. When the ground start mode is in idle, there is no tip ground from the unit, so the station equipment off-hook cannot be detected. To initiate a call, the station equipment must apply a ground potential to the ring lead. This draws ring lead current and the outgoing B signaling highway will change from the idle condi- tion (1) to a ring ground condition (0). The far end response will be the signal to apply tip lead ground. With the tip lead at ground, the off-hook can now be detected; the local station equipment can remove the ring ground and there will be normal tip and ring lead current. This will cause the unit to change the outgoing A high- way to a 1. aThe B highway is always 1. This is the normal busy condition of the unit. The circuit can return to idle in two ways: Far-end disconnect: If in ground start mode and the incoming A highway changes back to 1, the unit removes the tip ground. Tip and ring current stops, causing outgoing A highway to return to 0. Local station disconnect: If the local station equipment goes on-hook, the outgoing A highway goes to a 0 and the far end responds by changing the incoming A highway back to a 1. Then the unit re- moves the tip ground. Table 3. Outgoing calls, ground start Analog output Incoming Call progress Outgoing Analog input (Backward) (Forward) A B A B Tip open, no ringing 1 1 Idle 0 1 On-hook, no ring ground Tip open, no ringing 1 1 Ring ground 0 0 On-hook, ring ground Tip ground, no ringing 0 1 Busy 1 1 Off-hook, no ring ground 6 Section 365-785-201 Analog output Analog output Incoming Call progress Call progress Outgoing Analog Analog input input (Backward) (Forward) A B A B Tip ground, no ringing 0 1 Dial pulsing 1/0/1 1 Off/on/off-hook, no ring ground Tip open, no ringing 1 1 Idle 0 1 On-hook, no ring ground 4.2.4. Outgoing calls, loop start mode At idle, the local station equipment (see Table 4) will be in an idle condition with no loop closure. In loop start mode, there is always a tip ground from the unit no matter what the state of the incoming A highway is. The outgoing A highway will show the off-hook condition by changing from 1 (idle condition) to 0 (busy condition). Ring ground is not used in loop start, and the B highway is always 0. The circuit returns to idle when the near end station goes on hook. Table 4. Outgoing calls, loop start Analog output Incoming Call progress Outgoing Analog input (Backward) (Forward) A B A B Tip ground, no ringing 1 0 Idle 1 0 On-hook Tip ground, no ringing 1 0 Busy 0 0 Off-hook Tip ground, no ringing 1 0 Dial pulsing 0/1/0 0 Off/on/off-hook Tip ground, no ringing 1 0 Idle 1 0 On-hook 4.3 MEGACOM signaling In MEGACOM service, both highways have the same value in both directions. Only the A highway is monitored. 4.3.1. Incoming call operation, loop start mode In loop start mode, an incoming call starts when the far end seizes the circuit, resulting in the unit ringing the local station equipment at a 2 seconds on/4 seconds off cadence (see Table 5). The local station equipment answers and the circuit enters the normal busy condition. The circuit is released when both the local equipment goes on- hook and the far end goes idle. Table 5. Incoming calls, loop start Analog output Incoming Call progress Outgoing Analog input (Backward) (Forward) A B A B No ringing 0 0* Idle 0 0 On-hook Ringing 1 1* Ringing 0 0 On-hook No ringing 1 1* Busy 1 1 Off-hook No ringing 0 0* On-hook 0 0 On-hook Tip ground (existing) − − Forced busy 1 1 — *Highway not monitored. When the incoming A highway changes from idle (0) to busy (1), the unit applies a 2 seconds on/4 seconds off ringing cadence to the tip and ring leads. This continues until either the station equipment goes off-hook, or the incoming A highway returns to 0. During local station ringing periods, the far end receives a ringback tone. 7 Section 365-785-201 4.3.2. Incoming call operation, ground start immediate mode In ground start immediate mode, when the incoming A highway goes to a 1, the unit places a ground reference on the tip lead and then starts the 2 seconds on/4 seconds off ringing cadence on the ring lead (see Table 6). This continues until the station equipment goes off-hook or the A signaling highway returns to 0. Table 6. Incoming calls, ground start Analog output Incoming Call progress Outgoing Analog input (Backward) (Forward) A B A B No tip ground, no ringing 0 0* Idle 0 0 On-hook, no ring ground Tip ground, ringing 1 1* Ringing 0 0 On-hook, no ring ground Tip ground no ringing 1 1* Answer (busy) 1 1 Off-hook, no ring ground No tip ground, no ringing 0 0* Idle 0 0 On-hook, no ring ground Tip ground − − Forced busy 1 1 — *Highway not monitored. During local station ringing periods, the far end receives a ringback tone. Control of the circuit is from the far end. Even if the local equipment goes on-hook first, tip ground is maintained until the far end releases. If the far end releases first, the local station equipment loses tip ground. Unable to maintain loop current, the local station equipment is forced to an on-hook condition. 4.3.3. Incoming call operation, ground start wink mode Incoming call operation in wink mode is similar to incoming call operation ground start, immediate mode. The cir- cuit in this mode is controlled by the far end. See Table 7. Table 7. Incoming calls, ground start wink Analog output Incoming Call progress Outgoing Analog input (Backward) (Forward) A B A B No tip ground, no ringing 0 0* Idle 0 0 On-hook, no ring ground Tip ground, ringing 1 1* Ringing 0 0 On-hook, no ring ground Tip ground, no ringing 1 1* Off hook (talk busy) 1 1 Off-hook, no ring ground No tip ground, no ringing 0 0* Idle 0 0 On-hook, no ring ground Tip ground − − Forced busy 1 1 — *Highway not monitored. 8 Section 365-785-201 4.3.4. Outgoing call operation, loop start mode In the loop start mode, an outgoing call will start when the local station equipment goes off-hook (see Table 8). The far end responds and the circuit enters the normal busy condition. The circuit is released when both the local equipment goes on-hook and the far end goes idle. This mode is similar to the D3 mode of PLARD operation. Table 8. Outgoing calls, loop start Analog output Incoming Call progress Outgoing Analog input (Backward) (Forward) A B A B No ringing 0 0* Idle 0 0 On-hook No ringing 0 0* Off-hook 1 1 Off-hook No ringing (no change) 1 1* far-end answer (busy) 1 1 Off-hook No ringing (no change) 0 0* Idle 0 0 On-hook *Highway not monitored. After the station equipment goes off-hook, it will send its address signaling information (usually in the form of DTMF tones). 4.3.5. Outgoing call operation, ground start immediate mode During idle (see Table 9) the local station equipment is in an on-hook condition (no loop closure) with no ground applied to the ring lead. Because there is no tip ground from the unit, the station equipment going off-hook cannot be detected. To initiate a call, the station equipment must apply a ground potential to the ring lead. This draws ring lead current. The outgoing A&B signaling highways change, from idle (0,0) to 1,1. The far end responds by applying tip lead ground and changing the incoming A&B highways from 0,0 to 1,1. With the tip lead at ground, the off-hook can now be detected; the local station equipment removes the ring ground and there is normal loop current. This is the normal busy condition. Address signaling can take place (usually in the form of DTMF tones). The circuit can return to idle in two ways: 1. If the incoming A&B highways change back to 0,0, the tip ground is removed, loop current stops and the outgoing A&B highways return to 0,0. 2. If the local station equipment goes on-hook, the outgoing A&B highways go to 0,0 and the far end responds by changing the incoming A highways back to 0,0. The unit removes the tip ground to the station equipment. Table 9. Outgoing calls, ground start immediate Analog output Call progress Analog input Incoming Outgoing (Backward) (Forward) A B A B No tip ground, no ringing 0 0* Idle 0 0 On-hook, no ring ground No tip ground, no ringing 0 0* Ring ground 1 1 Off-hook, ring ground Tip ground, no ringing 1 1* Tip ground (busy) 1 1 Off-hook, no ring ground Tip open, no ringing 0 0* Idle 0 0 On-hook, no ring ground *Highway not monitored. Control of the circuit is from the far end. Once the circuit is busy, even if the local equipment goes on-hook first, tip ground is maintained until the far end releases. If the far end releases first, the local station equipment loses tip ground. Unable to maintain loop current, the local station equipment is forced to an on-hook condition. 9 Section 365-785-201 4.3.6. Outgoing call operation, ground start wink mode During idle, the local station equipment is in an on-hook condition (no loop closure) with no ground applied to the ring lead (see Table 10). Because there is no tip ground from the unit, the station equipment going off-hook can- not be detected. To initiate a call, the station equipment applies a ground potential to the ring lead. This draws ring lead current, causing the outgoing A&B signaling highways to change from idle (0,0) to 1,1. The far end response to this is a wink signal to apply tip lead ground. The incoming A&B highways wink 0,1,0. This causes the unit to place the tip lead at ground. The off-hook can now be detected; the local station equip- ment removes the ring ground and there is normal loop current. Address signaling can take place at this time (usually in the form of DTMF tones). The far end will normally provide answer supervision and change the incom- ing A&B highways to 1,1. This is the normal busy condition of the unit. The circuit can return to idle in two ways: 1. If the incoming A&B highways change back to 0,0, the tip ground is removed, loop current stops and the outgoing A&B highways return to 0,0. 2. If the local station equipment goes on-hook, stopping the loop current, the outgoing A&B highways go to 0,0 and the far end responds by changing the incoming A highways back to 0,0. The unit removes the tip ground to the station equipment. Table 10. Outgoing calls, ground start wink Analog output Incoming Call progress Outgoing Analog input (Backward) (Forward) A B A B No tip ground, no ringing 0 0* Idle 0 0 On-hook, no ring ground No tip ground, no ringing 0 0* Ring ground 1 1 On-hook, ring ground Tip ground, no ringing 0/1/0 0/1/0* Tip ground (wink) 1 1 Off-hook, no ring ground Tip ground, no ringing 1 1* Answer (busy) 1 1 Off-hook, no ring ground Tip open, no ringing 0 0* Idle 0 0 On-hook, no ring ground *Highway not monitored. The wink is about 250 ms in duration. Control of the circuit is from the far end. Once the circuit is busy, even if the local equipment goes on-hook first, tip ground is maintained until the far end releases. When the far end releases, the local station equipment loses tip ground. Unable to maintain off-hook, the local station equipment is forced to an on-hook condition. 4.4 Dial Pulse Originating (DPO) Signaling 4.4.1. Outgoing call operation DPO operation is normally only one way, although reverse make busy is allowed. When the local end initiates the call, the local equipment goes off-hook and the outgoing A&B highways change from idle (0,0) to busy (1,1). When the far end responds, with a change from 0,0 to 1,1 as either a wink or steady supervision, the unit reverses the talk battery polarity on the 2-wire line. The circuit returns to idle when the local end returns on-hook and the outgoing A&B highways are 0,0; the far end signals 0,0 back on the receive A&B highways. The reverse make busy condition is an abnormal condition used to keep an idle circuit from being used. When this happens, the local station equipment is in an on-hook condition but the far end signals 1,1 on the incoming A&B highways. This results in the unit reversing polarity to the local station equipment on the 2-wire. 10 Section 365-785-201 Table 11. Outgoing call operation − DPO Analog output Call progress Analog input Incoming Outgoing (Backward) (Forward) A B A B Normal battery polarity 0 0* Idle 0 0 On-hook Normal battery polarity 0 0* Off-hook 1 1 Off-hook Normal/reverse/normal 0/1/0 0/1/0* Wink 1 1 Off-hook Reverse battery polarity 1 1* Busy—normal talk state 1 1 Off-hook Normal battery polarity 0 0* Idle 0 0 On-hook Reverse battery polarity 1 1* Reverse make busy (trunk out of 0 0 On-hook service condition) Reverse battery − − Forced busy 1 1 — *Highway not monitored. 5. INSTALLATION 5.1 Installing the Unit 5.1.1. Attaching the Rear Panel The rear panel of the 3657-85 should be installed before all units are installed in the shelf and before wiring be- gins. The 3657-86 does not require a new rear panel. T&R and T1&R1 + + Figure 1. 3657-85 2W FXS/PLARD/DPO Rear Panel 5.1.2. Installing a New Unit Use the following steps to install the unit. Step Action 1. If not already installed, install the rear panel, screwing it to the appropriate mounting locations on the shelf using the provided hardware. WARNING If there is already a rear panel installed on the shelf, check for interference when mounting. The rear panel may need to be removed and replaced with the rear panel that has been shipped with the new unit. 2. Insert the unit into the shelf, making sure that the unit is aligned with the card guides inside the shelf. 3. Slide the unit fully in to the shelf. 4. Once the unit is fully inserted, tighten the securing screw on the front panel of the unit. 5. The unit will perform a self-test to ensure that it is compatible with the network management software on the system. 11 Section 365-785-201 Step Action 6. Wire the unit per the wiring information in the wiring section. 7. After the self-test is performed, check the software provisioning of the card using either the front panel craft interface on the front of the controller unit or the network management interface on the rear of the controller (see the section on network management for more information). 5.1.3. Installing a Replacement Unit If you are replacing a unit that is already in service, insure that the unit is the same as the unit being replaced. Step Action 1. Remove the wiring connector from the rear of the unit. 2. Unscrew the front panel securing screw to release the unit from the shelf. 3. Using the card ejector, remove the unit from the shelf. 4. Follow the procedure for installing a new unit. 5.2 Wiring the Unit For the 6-channel unit (3658-86), the first six circuits are used on the Telco connector (see Table 12). Both the 12-channel unit (3657-85) and the 6-channel unit (3657-86) have specific tip and ring lead functionality based on channel optioning. It is important that tip and ring polarity be maintained when connecting with the far-end equip- ment. 12 Section 365-785-201 Table 12. Pin Chart for Male 50-pin (25-pair) TELCO Connector Circuit Pins Pin 1 = R Pin 26 = T Circuit 1 Pin 2 = Not connected Pin 27 = Not connected Circuit 2 Pin 3 = R Pin 28 = T 3 Pin 4 = Not connected Pin 29 = Not connected 6 6 Circuit 3 Pin 5 = R Pin 30 = T 5 5 7 Pin 6 = Not connected Pin 31 = Not connected - Pin 7 = R Pin 32 = T Circuit 4 8 8 Pin 8 = Not connected Pin 33 = Not connected 6 6 Pin 9 = R Pin 34 = T Circuit 5 3 Pin 10 = Not connected Pin 35 = Not connected 6 6 Circuit 6 Pin 11 = R Pin 36 = T 5 5 7 Pin 12 = Not connected Pin 37 = Not connected ÍÍ - Circuit 7 Pin 13 = R Pin 38 = T ÍÍÍÍ 8 8 Pin 14 = Not connected Pin 39 = Not connected 5 5 ÍÍÍÍ Pin 15 = R Pin 40 = T Circuit 8 ÍÍÍÍ Pin 16 = Not connected Pin 41 = Not connected ÍÍÍÍ Circuit 9 Pin 17 = R Pin 42 = T ÍÍÍÍ Pin 18 = Not connected Pin 43 = Not connected ÍÍÍÍ Circuit 10 Pin 19 = R Pin 44 = T ÍÍÍÍ Pin 20 = Not connected Pin 45 = Not connected ÍÍÍÍ Pin 21 = R Pin 46 = T Circuit 11 ÍÍÍÍ Pin 22 = Not connected Pin 47 = Not connected ÍÍÍÍ Pin 23 = R Pin 48 = T Circuit 12 ÍÍÍÍ Pin 24 = Not connected Pin 49 = Not connected ÍÍ 6. OPTIONING 6.1 Software Optioning Refer to the Network Management Interface documentation for software optioning information. When installed, this unit uses the default provisioning, which can be altered through the network management interface. When this unit is inserted into a previously provisioned slot, if the card type matches, the unit’s provi- sioning options change to match the previously provisioned unit. If the unit type does not match the unit being replaced, it assumes its default provisioning. The individual channel provisioning options are as follows: Option Choices Default Per channel time slot allocation 1−15, 17−31, none Channel 1−15 = Timeslot 1−15 Channel 16−30 = Timeslot 17−31 Per channel operating mode FXS, MEGACOM, DPO FXS Per channel FXS mode loop start, ground start Loop start Per channel MEGACOM Ground immediate, wink Immediate start initiate Per channel forced busy on, off off 13 Section 365-785-201 Option Choices Default Per channel transmit level setting −10 to +6 dBm in 0.1 dB incre- 0 dBm ments Per channel receive level setting −15 to +1.0 dBm in 0.1 dB incre- −3 dBm ments Per channel loopback active, release release Per channel CGAI action idle, busy idle Per channel CGAD action idle, busy busy Per channel impedance 600 or 900 ohms 600 ohms 7. TECHNICAL ASSISTANCE If technical assistance is required, contact Charles Technical Services Center at: 847-806-8500 847-806-8556 (FAX) 800-607-8500 techserv@charlesindustries.com (e-mail) 8. WARRANTY & CUSTOMER SERVICE 8.1 Warranty Charles offers a 2-year warranty on this product. Contact your local Sales Representative at the address or tele- phone numbers below for warranty details. The warranty provisions are subject to change without notice. The terms and conditions applicable to any specific sale of product shall be defined in the resulting sales contract. Charles 5600 Apollo Drive Rolling Meadows, Illinois 60008-4049 U.S.A. 847-806-6300 (Main Office) 847-806-6231 (FAX) 8.2 Field Repairs (In-Warranty Units) Field repairs involving the replacement of components within a unit are not recommended and may void the war- ranty and compatibility with any applicable regulatory or agency requirements. If a unit needs repair, contact Charles for replacement or repair instructions, or follow the Repair Service Procedure below. 8.3 Advanced Replacement Service (In-Warranty Units) Charles offers an “advanced replacement” service if a replacement unit is required as soon as possible. With this service, the unit will be shipped in the fastest manner consistent with the urgency of the situation. In most cases, there are no charges for in-warranty repairs, except for the transportation charges of the unit and for a testing and handling charge for units returned with no trouble found. Upon receipt of the advanced replacement unit, return the out-of-service unit in the carton in which the replacement was shipped, using the pre-addressed shipping label provided. Call your customer service representative at the telephone number above for more details. 8.4 Standard Repair and Replacement Service (Both In-Warranty and Out-Of-Warranty Units) Charles offers a standard repair or exchange service for units either in- or out-of-warranty. With this service, units may be shipped to Charles for either repair and quality testing or exchanged for a replacement unit, as deter- mined by Charles. Follow the Repair Service Procedure below to return units and to secure a repair or replace- ment. A handling charge applies for equipment returned with no trouble found. To obtain more details of this ser- vice and a schedule of prices, contact Charles at 217-932-5292 (FAX 217-932-2943). Repair Service Procedure 14 Section 365-785-201 1. Prepare, complete, and enclose a purchase order in the box with the equipment to be returned. 2. Include the following information: − Company name and address − Contact name and phone number − Inventory of equipment being shipped − Particulars as to the nature of the failure − Return shipping address 3. Ship the equipment, purchase order, and above-listed information, transportation prepaid, to the ser- vice center address shown below. Charles 503 N.E. 15th St, P.O. Box 339 Casey, IL 62420-2054 U.S.A. 4. Most repaired or replaced units will be returned within 30 or 45 days, depending on the product type and availability of repair parts. Repaired units are warranted for either 90 days from the date of repair or for the remaining unexpired portion of the original warranty, whichever is longer. 9. SPECIFICATIONS 9.1 Regulatory Complies with FCC part 68, FCC part 15 and UL 1950. 9.2 Electrical Parameter Specification Number of Subscribers for Each unit 3657-85: 12 circuits 3657-86: 6 circuits Quantizing Level 8 bit, A-law encoding Insertion Loss 0 ± 0.5 dB (@ 1004 Hz) XMT input TLP range −10.0 to +6.0 dBm XMT default input level 0 dBm RCV output TLP range +1.0 to –15.0 dBm RCV default output level −3.0 dBm XMT and RCV prescription ATTN 0 to 16dB in increments of 0.1dB Gain from Frequency Change (single cir- 300 to 3000 Hz: −0.25 to +0.5 dB cuit) 3000 to 3400 Hz: −0.25 to +1.5 dB Gain from Input Level Tracking +3 to −37 dBm0: < 0.25 dB −37 to –50 dBm0: < 0.50 dB Impedance 900 Ohm +2.15 uf or 600 Ohm +2.15 uf Trans-hybrid loss ERL: > 28 dB SRL: > 18 dB Return Loss ERL: ≥ 28 dB SRL: ≥ 17 dB 15 Section 365-785-201 Parameter Specification Longitudinal Balance 300 to 600 Hz: ≥ 52 dB 600 to 2400 Hz: ≥ 52 dB 2400 to 3000 Hz: ≥ 52 dB 3000 to 3400 Hz: ≥ 53 dB Idle Channel Noise Max 20 dBrnCO Signal to Quantizing Distortion Ratio 0 to −30 dB: > 33 dB −30 to −40 dB: > 27 dB −40 to −45 dB: > 22 dB Cross Talk Attenuation >65 dB Operating Loop Resistance (RT side) 1800 Ohm (including the internal resistance of the phone) Loop on-hook detection sensitivity On-hook detection 10,000 ohms or greater. Loop off-hook detection sensitivity Off-hook detection 2500 ohms or less. Ring Ground detection 1500 ohm or less when connected to –5volts. Loop Current (RT side) 20 mA under 1200 Ohm loop resistance. Ring Trip time 250 ms or less with 2000 ohm or less loop resistance. Subscriber Signaling Type Loop Start and Ground Start RT Feeding Voltage (when in idle status) (Vbat – 6) VDC Ringing Voltage Signal 20 Hz, sine wave >65 VAC (RMS) with a load of 15 REN per unit. Each circuit or channel can handle 5 REN. LEDs Green LEDs on the unit. If the channel or circuit is busy, the LED will be lit to indicate a busy status to the local craft person. Loopback DS1 facility side loopback Power Supply Current 3657-85: 0.40 amp. (all circuits busy, short loop) 3657-86: 0.21 amp. (all circuits busy, short loop) Heat Dissipation 3657-85: 19.9 watts (all circuits busy, short loop) 3657-86: 10.5 watts (all circuits busy, short loop) 9.3 Physical See Table 13 for the physical characteristics of the unit. Table 13. Physical Specifications Feature 3657-85 3657-86 U.S. Metric U.S. Metric Height 0.75 inch 1.9 centimeters 0.75 inch 1.9 centimeters Width 9.625 inches 24.45 centimeters 5.64 inches 14.32 centimeters Depth 9.25 inches 23.49 centimeters 9.25 inches 23.49 centimeters Weight 1 pound, 1.1 ounces 0.49 kilogram 10.6 ounces 0.30 kilogram Temperature −40� to 149� F −40� to +65� C −40� to 149� F −40� to +65� C Humidity To 95% (non-condensing) To 95% (non-condensing) � � � 16