Microchip Technology Microsemi miSLIC Le9642 Quick Reference User Manual Download Page 13

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ZLR964222L

Line Module User Guide

Microsemi Corporation Confidential and Proprietary

shunt resistors (RZSI1- RZSI4) and populate J1, Samtec FTSH-105-01-L-DV. This allows for cabling between the

ZLR964222L Line Module

and the ZSI Snooper board to manipulate the ZSI data stream.

4.4 Line Interface Circuit

Figure 3

below shows the

ZLR964222L

simplified line interface circuit. Optional components and those used for

testing have been omitted. The complete circuit is shown in Section 7.

Figure 3 - ZLR964222L Line Interface Circuit

4.4.1 Surge Protection

The

ZLR964222L

line module design has series current limiting and shunt voltage limiting for lightning and surge

protection as shown in

“ZLR964222L Line Interface Circuit” on page 13

. This protection design uses Positive

Temperature Coefficient (PTC) thermistor devices to limit surge current. The purpose of the PTC is to provide
overcurrent protection during a power cross event. During a typical transient surge (i.e. due to a lighting strike), the
PTC simply acts like a low-value resistor limiting the surge current to a manageable level. In the event of a power
cross, the PTC behaves like a fuse. Since a power cross is a long term event, the PTC will heat up and transition
from a low resistance to a high resistance. After the event has been cleared, the PTC will return to a low resistance
value once again, assuming the ratings of the PTC have not been exceeded.

Voltage limiting is provided by

Bourns TISP61089B

programmable overvoltage SLIC protector. This device

provides a voltage clamp that is triggered by voltages slightly more negative than VBH. This protection scheme
protects both the Tip and Ring leads of the surged channel, limiting the voltage applied to either the TIPD or RINGD
pins of the device. The use of battery tracking protection permits the use of a VBAT

supplies rail near the device

maximum rating. Two single devices are used instead of a dual device to allow a lower cost single channel
population option.

NOTES

- Exposed pad on the Le9642 must be connected

through via holes to both side of top and bottom layer copper

and connected to a GND plane.

Locate CVDx next to DVDD, and CVAx next to AVDD pins.

ALL GROUNDS ARE VIA THE EPAD

- Recommended EPAD should be a 216mil square pad
with a 7 x 7 array of 13mil/.33mil vias. Vias should be
connected to the ground plane with solid connections.

TDC1
TAC1

TIPD1

RINGD1

RAC1
RDC1

TDC2
TAC2

TIPD2

RINGD2

RAC2
RDC2

Population Options for 2 FXS BB ABS and 1FXS BB

2 FXS BB ABS

1 FXS Tracker

Reference

RVS2

DNP

1Meg 1% 0805

Table 1

RT2

CHL2

47.5K 1% 0402

DNP

CLFC1

4.7uF X5R 6.3V

DNP

4.7uF X5R 6.3V

0.1uF 10V

0805

See Table 1

0603

RVP1

DNP

0ohm 0603

De-populate for 1 FXS

TISP61089BD

DNP

See Table 1

A 10K pulldown resistor
is required on SWISZ if
the Le9641 1ch option is required.
Pin 24 is the ZSIn on Le9641

VBATL_VBAT

AGND

VBATH

3.3V

SWOUTY

VBSENSE1

SWISY

ZCLK
ZMOSI

ZSYNC

ZMISO

AGND

VBATH

3.3V

AGND

3.3V

AGND

3.3V

AGND

3.3V

VBATL_VBAT

VBATH

3.3VA

AGND

VBATH

AGND

VBATL_VBAT

VBATH

VBATL_VBAT

Title

Size

Document Number

Rev

Date:

Sheet

Designer

0LFURVHPL3URSULHWDU\'RFXPHQW

ZLR964222L

Le9642 2 FXS Shared Buck-Boost ABS

Monday, April 30, 2018

JLR

0LFURVHPL

)UHLGULFK/Q
%OGJ6XLWH
$XVWLQ7;

Title

Size

Document Number

Rev

Date:

Sheet

Designer

0LFURVHPL3URSULHWDU\'RFXPHQW

ZLR964222L

Le9642 2 FXS Shared Buck-Boost ABS

Monday, April 30, 2018

JLR

0LFURVHPL

)UHLGULFK/Q
%OGJ6XLWH
$XVWLQ7;

Title

Size

Document Number

Rev

Date:

Sheet

Designer

0LFURVHPL3URSULHWDU\'RFXPHQW

ZLR964222L

Le9642 2 FXS Shared Buck-Boost ABS

Monday, April 30, 2018

JLR

0LFURVHPL

)UHLGULFK/Q
%OGJ6XLWH
$XVWLQ7;

RTDCA1

1Meg

RZSI1

0 Ohm

PTC1

MF-SD013/250

RVS1

1Meg

SK2

TA-250-6

CRAC1

0.022uF

100V

RT2
47.5K

RZSI2

0 Ohm

RRDCA1

1Meg

RRAC1

10K

RT1
47.5K

SK1

TA-250-6

RZSI3

0 Ohm

RVS2

1Meg

PTC2

MF-SD013/250

CV2
4.7uF

6.3V

CVP1
0.1uF

100V

RZSI4

0 Ohm

RTDCA2

1Meg

CREF1
10uF

6.3V

CVIO1
0.01uF

16V

RV1

1R0

RVP1

CVD12
0.1uF

16V

CVD1
0.01uF

16V

CTD2

.022uF

100V

RRDCA2

1Meg

TISP61089BD

K1a

K2a

K2b

K1b

CRD2

.022uF

100V

CHL2

4.7uF

6.3V

ZSI
Interface

Channel 1

Channel 2

POWER

N/C Do
Not Route

GROUND

Analog
Settings

Switch
Control

Channel 1

Channel 2

Switch
Control

Le9642

VBL1

RVSD1

RSN1

AVDD2

RTV1

IHL1

TAC1

RAC1

TDC1

RDC1

LFC1

IREF

VREF

SWVSY

SWISY

SWCMPY

SWOUTY

DVDD1

ZSYNC

ZMISO

ZCLK

DVDHPI

SWOUTZ

SWCMPZ

SWISZ

SWVSZ

VDDSW

LFC2

RDC2

TDC2

RAC2

TAC2

IHL2

RTV2

RSN2

DVDD1V2

RSVD2

RINGD2

RSVD3

RSVD4

TIPD2

VBL2

RINGD1

TIPD1

VBH

ePAD_GND

AVDD1

ZMOSI

RVSD0

CCMP1

2.2nF

16V

RRAC2

10K

CVA1
0.1uF

16V

CTAC1

0.022uF

100V

DNP

CTAC2

0.022uF

100V

CTD1
.022uF

100V

RTAC1

10K

CLFC1

0.1uF

16V

RCMP1

1Meg

RREF1

75K

0.5%

RTAC2

10K

CHL1

4.7uF

6.3V

CVA2
0.1uF

16V

RZ1

10K

CRD1
.022uF

100V

CRAC2

0.022uF

100V

TISP61089BD

K1a

K2a

K2b

K1b

CV1
4.7uF

6.3V

PRING1

ZCLKi
ZSYNCi
ZMISOi
ZMOSIi

PTIP1

PTIP2

PRING2

ZCLKi

ZMISOi
ZMOSIi

ZSYNCi

PCLK

FS
DXA
DRA

ZCLKi

ZMISOi

ZMOSIi

ZSYNCi

PCLK

DXA

DRA

PRING2

PTIP2

PTIP1

PRING1

Summary of Contents for Microsemi miSLIC Le9642

Page 1: ...for the Le9642 miSLICTM Device Part Number ZLR964222L Document ID PD 000196666 Revision Number 2 0 Issue Date November 2018 ZLR964222L Reference Design User Guide...

Page 2: ...gh Voltage PNP 16 4 5 4 Inductor Requirements 16 4 5 5 Switching Diode Requirements 16 4 5 6 Compatibility with xDSL 16 4 5 7 Other Design Options 16 4 6 Single Channel Option Using Le9641 1FXS Tracke...

Page 3: ...4 Power Consumption at DC Feed and Ringing 33 6 4 1 CoC Profile Power Consumption 33 6 4 2 Default Profile Power Consumption 34 6 5 Shared Buck Boost ABS Switching Regulator Performance 35 6 6 Thermal...

Page 4: ...rowband 26 Figure 14 Transmit Path A to D Attenuation Distortion Narrowband 26 Figure 15 Receive Path D to A Gain Tracking Narrowband 27 Figure 16 Transmit Path A to D Gain Tracking Narrowband 27 Figu...

Page 5: ...for intra building requirements On board 12 V input shared buck boost ABS BBABS switching regulator circuit Designed for up to 600 total loop ZSI interface operation at up to 8 192 MHz with ZTAP DC s...

Page 6: ...s call progress tone frequencies and levels Ringing Cadence This profile sets the cadence that is associated with ringing Tone Cadence This profile defines call progress tone cadences This Profile is...

Page 7: ...or all extensions Enables calling from any FXS into any other FXS or an FXO port Profile Parameter Loading By clicking on any extension displayed on the Mini PBX main window Profile Wizard generated f...

Page 8: ...receptacle depending on line module capability An additional line module can be supported via an Le71HP0411G adapter board that connects to the ZTAP DIN receptacle The ZTAP Kit is supplied with an ex...

Page 9: ...lready running Mini PBX will know what port is being used Note that the ZTAP Support Package software installation includes a Virtual COM Port Driver to support USB to serial UART interface on the ZTA...

Page 10: ...xtension number 101 Mini PBX will route the call to extension 101 and initiate cadenced ringing Default ringing is defined within the MID The Mini PBX will provide an audible ringback tone to the call...

Page 11: ...osemi in the following files ZLR964222L_SM2_LITE_Rev2_9 VPW for the ZLR964222L Module This file contains the following profiles Device Profile for Microsemi ZTAP demonstration platform and configured...

Page 12: ...ement The VP API II takes advantage of these and other enhancements in the Le9642 and offers greater programmability and more efficient operation Please refer to the Le9642 miSLIC Subscriber Line Inte...

Page 13: ...P 1Meg 1 0805 Table 1 RT2 CHL2 47 5K 1 0402 DNP CLFC1 4 7uF X5R 6 3V DNP 4 7uF X5R 6 3V 0 1uF 10V 0805 See Table 1 0603 RVP1 DNP 0ohm 0603 De populate for 1 FXS U3 TISP61089BD DNP See Table 1 See Tabl...

Page 14: ...the DC sense connects in front of the surge protection they are exposed to high voltage conditions and therefore should be not smaller than 1206 4 5 Buck Boost Automatic Battery Switching Power Supply...

Page 15: ...4 5 2 Capacitor Requirements The BBABS supply has been design and characterized using low cost electrolytic capacitors Both CFL1 and CFH1 are required to be 10uF capacitors Depending on ringing requir...

Page 16: ...5 Switching Diode Requirements The BBABS uses three diodes in its output stage DSW1 is the VBATL rectifier and is specified The VBATH diodes DSW3 and DSW4 are BAV70 dual parallel diodes To minimize c...

Page 17: ...wn resistor is required on SWISZ if the Le9641 1ch option is required Pin 24 is the ZSIn on Le9641 VBATL_VBAT AGND VBATH 3 3V SWOUTY VBSENSE1 SWISY ZCLK ZMOSI ZSYNC ZMISO AGND VBATH 3 3V AGND AGND 3 3...

Page 18: ...X5R 0603 minimum for 2 FXS designs Figure 6 Buck Boost ABS to Fixed Tracking Buck Boost Population SWOUTY VBSENSE1 VBAT SWISY AGND AGND VSW 3 3V 3 3V AGND AGND AGND VSW 12V 9V 15V Buck Boost Power Su...

Page 19: ...gain and filter coefficient data The default AC Profile provides a 600 input and balance impedance with 6 dBr receive level and 0 dBr transmit It also takes into account the nominal 5 PTC series resis...

Page 20: ...Caller ID Profile sets the signaling that is used for on hook and off hook Caller ID The MID does not include any Caller ID Profiles 5 3 Profiles Generated with Profile Wizard As an alternative to usi...

Page 21: ...e ZLR964222L project file loaded Please note that the Tone Cadence and Caller ID require a license to the VP API II and are not available with the VP API II Lite version Figure 7 Profile Wizard Main M...

Page 22: ...After saving the Profile data the user should press the Save and Generate button on the left panel of the Main Menu Figure 7 This will generate new c file with the selected profiles in the directory...

Page 23: ...Mode 5 After double clicking on the line module location a new window will open as shown in Figure 10 The user should click the Browse button and select the newly created c Profile Wizard file Figure...

Page 24: ...R964222L reference design contains coefficient sets for the following AC profiles AC_FXS_RF14_600R_DEF Default narrow band 600ohm AC_FXS_RF14_WB_600R_DEF Default wide band 600ohm Line Module Default C...

Page 25: ...ZLR964222L Line Module User Guide 25 Microsemi Corporation Confidential and Proprietary Figure 12 Four Wire Return Loss Narrowband ZLR964222L_SN_003_Ext_100...

Page 26: ...ation Confidential and Proprietary 6 2 2 Attenuation Distortion and Gain Figure 13 Receive Path D to A Attenuation Distortion Narrowband Figure 14 Transmit Path A to D Attenuation Distortion Narrowban...

Page 27: ...rosemi Corporation Confidential and Proprietary 6 2 3 Gain Tracking and Noise Figure 15 Receive Path D to A Gain Tracking Narrowband Figure 16 Transmit Path A to D Gain Tracking Narrowband ZLR964222L_...

Page 28: ...ration Confidential and Proprietary 6 2 4 Total Distortion and Harmonic Distortion Figure 17 Receive Path D to A Total Distortion Narrowband Figure 18 Transmit Path A to D Total Distortion Narrowband...

Page 29: ...deband Transmission Performance The following graphs illustrate the wideband 150 6800 Hz transmission performance using a W G PCM 4 Note that the Le9642 device supports per channel wideband mode 6 3 1...

Page 30: ...er Guide 30 Microsemi Corporation Confidential and Proprietary 6 3 2 Attenuation Distortion and Gain Figure 21 Receive Path D to A Attenuation Distortion Wideband Figure 22 Transmit Path A to D Attenu...

Page 31: ...ine Module User Guide 31 Microsemi Corporation Confidential and Proprietary 6 3 3 Gain Tracking and Noise Figure 23 Receive Path D to A Gain Tracking Wideband Figure 24 Transmit Path A to D Gain Track...

Page 32: ...ser Guide 32 Microsemi Corporation Confidential and Proprietary 6 3 4 Total Distortion and Harmonic Distortion Figure 25 Receive Path D to A Total Distortion Wideband Figure 26 Transmit Path A to D To...

Page 33: ...VDC offset and 1 REN 6920 8 F load 2 C2 programmed ringing 25 Hz 70 VPK 50 VRMS 0 VDC offset and 3 REN 2333 24 F load Table 2 CoC Profile Power Dissipation 1 IDD supply current is the sum of IAVDD and...

Page 34: ...IDD supply current is the sum of IAVDD and IDVDD for the device 2 Power numbers are per channel for both channels in the same state 3 Power numbers are for a combinations of both channels for these s...

Page 35: ...9642 JA 35 C W using a 2 layer PCB with all components mounted top side Bottom side is a solid copper pour with minimal routing voids Via array is a 7x7 array of 0 33 mm 13 mil vias Actual device ther...

Page 36: ...inimum if the load exceeds approximately the power threshold that has been configured The power level and ringing reduction level are configurable Adaptive ringing can be disabled using the following...

Page 37: ...n SWCMPx can upset the operation and efficiency of the switching power supply CCMP1 2 should be high quality capacitors with stable characteristics NP0 C0G dielectric is preferable especially if the d...

Page 38: ...tes on the bottom side will limit the flow of heat away from the device The more copper the better If the design incorporates a ground plane the thermal pad should tie into the ground plane with a 7x7...

Page 39: ...endations and review is provided as is without any warranty representation condition or liability whatsoever REV DESCRIPTION DATE A0 INITIAL RELEASE 12 30 13 TM ZLR964122L 1 FXS miSLIC Reference Desig...

Page 40: ...t Number Rev Date Sheet of Designer 0LFURVHPL 3URSULHWDU RFXPHQW ZLR964222L B3 Le9642 2 FXS Shared Buck Boost ABS B 2 5 Monday April 30 2018 JLR 0LFURVHPL UHLGULFK Q OGJ 6XLWH XVWLQ 7 Title Size Docum...

Page 41: ...e9642 2 FXS Shared Buck Boost ABS B 3 5 Monday April 30 2018 JLR 0LFURVHPL UHLGULFK Q OGJ 6XLWH XVWLQ 7 Title Size Document Number Rev Date Sheet of Designer 0LFURVHPL 3URSULHWDU RFXPHQW ZLR964222L B3...

Page 42: ...6XLWH XVWLQ 7 Title Size Document Number Rev Date Sheet of Designer 0LFURVHPL 3URSULHWDU RFXPHQW ZLR964222L B3 Le9642 2 FXS Shared Buck Boost ABS B 4 5 Monday April 30 2018 JLR 0LFURVHPL UHLGULFK Q O...

Page 43: ...L1 22uH 1 8A RE1 75R 0603 RC1 0R CSW1 220uF 10V RCS1 3 01K 3REN 50Vrms 23 ma ILA Max 5V Device Profile VSW AGND SWOUTY VBSENSE1 VBATL_VBAT 3 3V VBATH SWISY VSW AGND AGND AGND VSW 3 3V 3 3V 3 3V AGND...

Page 44: ...BAV70 On Semi BAV70LT1G NXP Nexperia BAV70 22 0 J1 DNP DNP 23 2 J3 J4 HDR2x1 HDR2x1 Samtec TSW 150 07 T S 24 1 JSM2 Header 2 x 16 Samtec TSW 116 07 T D 25 2 PTC1 PTC2 PTC 250V 5R 3A PTC_BOURNS_SMBourn...

Page 45: ...ZLR964222L Rev B0 Layout Plots Plots of the layout of the ZLR964222L Line Module are provided in this section This layout is available in Cadence Allegro brd V16 5 format upon request The gerber files...

Page 46: ...ge uses a center EPAD for both grounding and heat dissipation The Microsemi 48 pin QFN package uses a non standard narrower pin width versus a standard package This is to allow extra clearance between...

Page 47: ...service Information concerning possible methods of use is provided as a guide only and does not constitute any guarantee that such methods of use will be satisfactory in a specific piece of equipment...

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