ETC MF604F

Product Specification
MF604F
File No
RDPS-POTS050
Revision
R0
System Application
Asymmetric Digital Subscriber Line
Product Type
Micro filter for South Africa
Product Name
MF604F
Date
Aug. 27th, 2002
Issued By
Sundi Lin - Design Engineer, R&D_1
[email protected]
Approved By
Roger Wu – Manager, R&D_1
[email protected]
Issued Date
YCL Electronics Co., Ltd.
No.95, Feng Jen Road. Feng Shan City, Kaohsiung, Taiwan, R.O.C.
This controlled document is the property of YCL Electronics Co., Ltd. Any duplication
reproduction or transmission by unauthorized parties without the prior written
permission of YCL Electronics Co., Ltd. is prohibited.
Data sheet subject to change without notice
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Product Specification
MF604F
Table of contents
Item Description
Page
1.
Introduction
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3
2.
Reference
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3
3.
Abbreviations
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4
4.
Technical requirements
4.1. Schematic
4.2. Electrical specification
4.3. DC characteristic
4.4. ZADSL definition
4.5. Test method
4.5.1. Insertion loss test setup
4.5.3. Return loss from line
side test setup
4.5.4. Return loss from phone
side test setup
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4
4
5
7
7
8
8
9
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10
Environmental condition
5.1. Resistibility to overvoltage and
overcurrents
5.2. Climatic condition
5.2.1. Operating temperature
5.2.2. Storage and transport
5.2.3. Operating humidity
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11
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11
11
11
6
Reliabilty conditions
6.1.Thermal shock
6.2. Temperature humidity exposure
6.3. Vibration test
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11
11
11
7.
Mechanical condition
7.1. Dimension
7.2. Connector information
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12
12
5
Data sheet subject to change without notice
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Product Specification
MF604F
1. Introduction:
The MF604F is a “in – line” ( or distributed ) filter that has been specifically designed to
implement the functionality of low pass filter in POTS over ADSL application .
Asymmetric Digital Subscriber Line (ADSL) technology
is dedicated , point to point , public
network access technology that allows multiple forms of data , voice , and video to be carried
over twisted-pair copper wire on the local loop between a network service provider’s(NSP’S)
central office and the customer site or within intra-campus / intra-building networks. Best of
all , ADSL delivers this high speed performance over existing copper telephone line all while
allowing traditional voice service to coexist without interruption through POTS low pass filters.
The MF604F integrates low pass filter that blocks the high frequency energy from reaching
the POTS device and provides isolation from impedance effects of the POTS device on ADSL.
In addition , this filter will also attenuate any wideband impulse noise generated by the POTS
device due to the interruption of loop current(e.g. pulse dialing or on hook / off hook
transfer)Because the POTS filter connects directly to the subscriber loop media , it must
provide some protection for externally induced line hits or faults which could damage any
attached equipment or endanger humans interacting with the installed equipment. The circuit
protection will be provided mostly by standard central office line protection means and
additional protection measures built into pots filter to protect against line overstress which
could damage the filter itself.
2. Reference:
Ref. 1 :
Ref. 2 :
Ref. 3 :
ETSI TR 101 728
ITU-T G992.1
K21
Data sheet subject to change without notice
Attachment to Public Switched Telephone Network
Asymmetric Digital Subscriber Line (ADSL) Transceiver
Resistibility of subscribers terminal to overvoltages
and overcurrents.
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Product Specification
MF604F
3. Abbreviations:
ADSL
CO
CPE
POTS
RT
Asymmetric Digital Subscriber Line
Central Office
Customer Premise Equipment.
Plain Old Telephone Service
Remote Terminal
4. Technical requirements:
4.1. Schematic:
The following drawing illustrate the schematic of this product.
Data sheet subject to change without notice
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Product Specification
MF604F
4.2. Electrical specification :
Electrical requirements
Splitter parameter
Range
values
Frequency range
Splitter bandwidth
DC to 16KHz
Nominal voice band
0KHz to 4KHz
Ringing frequency
17Hz , 25Hz
ADSL band
26KHz to 1104KHz
Line Impedance ZL
270ohm + (750ohm // 150nF)
CO impedance ZTc
270ohm + (750ohm // 150nF)
RT impedance ZTr
270ohm + (750ohm // 150nF)
Modem impedance
26KHz< f< 1104KHz
100 ohm
Operation voltage voice band
Nominal signal
21mVpp to 5.4 Vpp
Ringing signal
35Vrms to 75Vrms
DC voltage
0V to 78V
Max. AC voltage
25Hz < f <50Hz
100Vrms with78VDC offset
Current voice band
Loop current
<=125mA
Transient current(on/off hook)
<=125mA
DC Resistance
DC Resistance
<=25 ohm
Isolation resistance between any
wire and earth
>25 Mohm
Isolation resistance between wires At 200Vdc
>25Mohm
Voice–band characteristic
Delay distortion
Data sheet subject to change without notice
200Hz<f<4KHz
<200 usec
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Product Specification
MF604F
Electrical requirements
Splitter parameter
Range
values
Insertion loss
1KHz
<=1.0 dB
Attenuation distortion
200Hz<f<3.4KHz
<=±1.0 dB
Splitter parameter
Range
values
Port
Modem
Line
Phone
Voice-band characteristic
for single filter
Insertion loss
1 kHz
<1.0 dB
ZADSL
ZR / 600 ZR / 600
Attenuation distortion
200Hz – 4kHz
<1.0 dB
ZADSL
ZR / 600 ZR / 600
Return loss at the
Line / POTS port
300Hz – 3.4kHz
>12 dB
ZADSL
ZR / Zsl
ZR / Zsl
3.4kHz – 4kHz
>8 dB
ZADSL
ZR / Zsl
ZR / Zsl
Insertion loss
1 kHz
<1.0 dB
ZADSL
ZR / 600 ZR / 600
Attenuation distortion
200Hz – 4kHz
<1.0 dB
ZADSL
ZR / 600 ZR / 600
Return loss at the
Line / POTS port
300Hz – 3.4kHz
>12 dB
ZADSL
ZR / Zsl
ZR / Zsl
3.4kHz – 4kHz
>8 dB
ZADSL
ZR / Zsl
ZR / Zsl
32kHz – 1100kHz
<1 kΩ
---
---
ZRHF
Voice-band characteristic
for four filters
Line side impedance of
the filter at ADSL freq.
Electrical requirements
Splitter parameter
Longitudinal conversion loss LCL
Range
values
25K, 50K, 100 K, 200K ,1100K >=40 dB
ADSL band characteristic
Stop band attenuation
32KHz< f <1100KHz
>=55 dB
NOTE :
ZRHF : 120 ohm + [ ( 150 ohm // 47nf ) + ( 750 ohms // 150nf ) ]
Data sheet subject to change without notice
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Product Specification
MF604F
4.3. DC characteristic :
All requirement of this specification can be met in the presence of all POTS loop currents
from 0mA to 125mA. This in line filter can pass POTS tip-to-ring dc voltages of 0V to 78V
and ringing signals of 35Vrms to 75Vrms at any frequency from17Hz and25Hz with a dc
component in the range from 0V to 78V. The dc resistance from tip-to-ring at the line port
interface with the phone interface shorted, shall be less than or equal to 25 ohms. The DC
resistance from tip-to-ground and from ring-to-ground at the POTS interface with the U-R
interface open shall be greater than or equal to 5 Megohms. The ground point shall be local
building or green wire ground. As an objective , the dc resistance should exceed 25MΩ.
4.4. ZADSL Definition:
To facilitate testing of the In-Line Filter independently of the actual modem or specific
vendor, ZADSL, is defined to allow proper termination of the ADSL port during voice band
testing. The ZADSL is valid only for voice band frequency. The combination of capacitors in
the ZADSL is only representative. The input shall be 27nF however derived. ZADSL equivalent
circuit is shown below.
Data sheet subject to change without notice
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Product Specification
MF604F
4.5. Test method :
4.5.1. Insertion loss test setup :
The insertion loss of a device connected into a given transmission system is defined as the
ratio, expressed in dB, of the load power available(before and after insertion ) delivered to
the output network beyond the point of insertion at a given frequency. In general , the
insertion loss of a device inserted in a given transmission system is mainly caused by
internal component resistive loss while all of the impedance between source , load and
device interface having been matched. To perform the insertion loss measurement ,thru
calibration must be done prior the testing . General Insertion loss equation can be
expressed as following. Insertion loss = 20 log V2 / V1 dB where
V1 = the measured voltage value of load without LPF in circuit.
V2 = the measured voltage value of load with LPF in circuit.
The test setup is shown in drawing below :
Note : ZR = 270 ohm + ( 750 ohm // 150nf )
Data sheet subject to change without notice
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Product Specification
MF604F
4.5.2 . Return loss from line side test setup :
Return loss measures the amount of lost energy due to reflection resulted from
impedance mismatching at the interface. Return loss is essentially defined as the ratio
of the incident power upon a given transmission system to the reflective power caused
by impedance mismatch with respect to reference impedance at the interface between
source and device. Return loss figure is a function of the impedance of the circuit
involved and therefore frequency dependent. These impedance must be closely
maintained in order to reduce the possibility of undesirable reflection and echoes
which results from long distance circuit of the telephone user and may destroy the data
being sent. To perform the return loss test , open ,short and load calibration must be
done prior measurement while the LCZ impedance analyzer being selected in
impedance mode. Return loss is general expressed in decibels.
General return loss equation is listed: Return loss = 20 log ZL + ZM / ZL - ZMdB
Where ZL = the reference impedance
ZM = the measured impedance
The test setup is shown in drawing below:
NOTE :
ZSL=82 ohm + ( 600 ohm // 68 nf )
Note : ZR = 270 ohm + ( 750 ohm // 150nf )
Data sheet subject to change without notice
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Product Specification
MF604F
4.5.3 . Return loss from phone side test setup :
Return loss measures the amount of lost energy due to reflection resulted from
impedance mismatching at the interface. Return loss is essentially defined as the ratio
of the incident power upon a given transmission system to the reflective power caused
by impedance mismatch with respect to reference impedance at the interface between
source and device. Return loss figure is a function of the impedance of the circuit
involved and therefore frequency dependent. These impedance must be closely
maintained in order to reduce the possibility of undesirable reflection and echoes
which results from long distance circuit of the telephone user and may destroy the data
being sent. To perform the return loss test , open ,short and load calibration must be
done prior measurement while the LCZ impedance analyzer being selected in
impedance mode. Return loss is general expressed in decibels.
General return loss equation is listed: Return loss = 20 log ZL + ZM / ZL - ZMdB
Where ZL = the reference impedance
ZM = the measured impedance
The test setup is shown in drawing below:
NOTE :
ZSL : = 82 ohm + ( 600 ohm // 68nf )
Note : ZR = 270 ohm + ( 750 ohm // 150nf )
Data sheet subject to change without notice
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Product Specification
MF604F
5. Environmental condition:
5.1. Resistibility to overvoltages and overcurrents:
The splitter has to comply with requirements as per ITU-T K.21.
5.2. Climatic conditions:
5.2.1. Operating temperature:
Application
indoor
Long time operation guarantee temperature ( 5 to 40 0C )
Short time operation guarantee temperature ( 0 to 50 0C )
( According to ETS 300 019, class 3.2 )
5.2.2. Storage and transport:
Low ambient temperature
- 20 0C
High ambient temperature
+85 0C
( According to MIL-STD-202 method 107 )
5.2.3. Operation humidity:
Long time operation guarantee humidity ( 5 to 85 % )
Short time operation guarantee humidity ( 5 to 90 % )
Short time : within 72 continuous hours and 15 days in a year
6. Reliability conditions:
6.1. Thermal shock :
Temperature from -20 °C to +85 °C for 5 cycles
(According to MIL-STD-202 , method 107)
6.2. Temperature humidity exposure :
+50 °C /95RH , 96hrs
(According to MIL-STD-202 , method 103)
6.3. Vibration test :
Random vibration , frequency 5-500Hz , sweep time :1 hr / axis /
Force : 2.4grams (According to MIL-STD-202 , method 204)
Data sheet subject to change without notice
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Product Specification
MF604F
7. Mechanical condition:
7.1. Dimension :
Note:
Unit : mm
7.2. Connector information:
Position
Phone
Line
Type
RJ11 Jack
RJ11 Plug
Data sheet subject to change without notice
Tip
3
3
Ring
4
4
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