Bothhandusa.com ADSL CPE SIDE SPLITTER P/N: AD-8039J Feature Compact package, includes connectors for ease of installation Design for G.dmt Application 100 mA DC Loop Current Capacity Operating Temperature: -10! to+ 60!. Storage Temperature: -25! !to +75! !. ! ! ! ! ! !, Relative Humidity 20~90%) Specifications (Operating Temperature 5~40! POTS Port Impedance 600Ω DC Resistance each line 12.5Ω Max Insertion Loss @1KHz -0.3dB Max Attenuation @30~300KHz -65dB Min Billing tone(12KHz " 80Hz) 3dB~5dB @300~1104KHz -65dB Min Attenuation Distortion (dB, ref 1KHz) Return Loss Longitudinal Balance 0.2 ~1KHz -58 dB Min 1KHz~3KHz -53 dB Min 200Hz~3400Hz +/- 0.6 dB 3400Hz~4000Hz +/- 1.0 dB Isolation resistance tip/ring 5M ohm Min 200Hz~500Hz -14 dB Min POTS trip and ring DC Voltage 0-105V 500Hz~2000Hz -18 dB Min 2000Hz~3400Hz -14 dB Min Delay Distortion @0.6-3.2KHz 100uS Max Dimension Schematic Connector Function Style Tip Ring MODEM J1 Modem RJ11 Pin3 Pin4 J2 Line RJ11 Pin3 Pin4 J3 Phone RJ11 Pin3 Pin4 LPF LINE 462 Boston St - Topsfield, MA 01983 - Phone: 978-887-8050 - Fax: 978-887-5434 PHONE P/N: AD-8039J Mechanical 462 Boston St - Topsfield, MA 01983 - Phone: 978-887-8050 - Fax: 978-887-5434 P/N: AD-8039J E.4 Type 4 – Type for Japan E.4.1 Introduction §E.4 describes specifications and testing methods for a POTS splitter appropriate to Japan. Both a central office (CO) POTS splitter and a remote (R) POTS splitter shall conform to them. E.4.1.1 Frequencies and Level of Voice-band Signal The frequencies and level of the voice-band signal provided by the local switch (LS) are as follows. ! Signal frequency: 0.2- 4.0 kHz ! Signal level: maximum of+3 dBm A signal of+36 dBm at 400 Hz may be used as a howler signal. E.4.1.2 External CO POTS Splitter Function The external CO POTS splitter may be located some distance form the ATU-C modem. To protect against DC faults, DC blocking capacitors should be included in the xDSL port of the POTS splitter. These capacitors configure parts of the input to the xDSL HPF function, so they must be included when the input impedance is calculated. If the POTS splitter function is included entirely within the modem, the capacitors should be included as part of the HPF function. E.4.1.3 ZHP Definition To facilitate testing of the POTS splitter independently of the actual modem or specific vendor, two ZHP’s are defined to allow proper termination of the xDSL port during voice band testing. The ZHP’s are valid only for voice band frequencies. They shall be as shown in Figure E-19. ZHP Remote end(ZHP-r) E.4.2 DC Characteristics This paragraph contains the DC specifications, such as the loop DC current, the ringing, the L1-to-L2 DC voltage, the loop DC resistance, the isolation resistance, the L1-to-L2 capacitance, and the capacitance to ground, and the methods for measuring them. All requirements included in 1. must be met in the presence of all POTS loop currents ranging from 0 to 130 mA. E.4.2.1 Loop DC Current The POTS splitter should ensure normal operation for loop DC currents ranging form 0 to 130 mA 462 Boston St - Topsfield, MA 01983 - Phone: 978-887-8050 - Fax: 978-887-5434 P/N: AD-8039J E.4.2.2 Ringing The POTS splitter should accept the following ringing signals. ! Ringing frequency: 15 – 30 Hz ! Ringing AC: maximum 100 Vrms ! Ringing DC (AC superimposed on DC): maximum minus 60 V E.4.2.3 L1-to-L2 DC Voltage The POTS splitter should accept POTS L1-to-L2 DC voltages of 0 to minus 60 V. In addition, it should be able to withstand a POTS L1-to-L2 DC voltage of up to 120 V for at least 10 s. In addition, the Recommendation K.20 and K.21 may be considered to ensure the POTS splitter availability when the Surge voltage is applied to the POTS splitter. E.4.2.4 DC Resistance The L1-to-L2 DC resistance, at the PSTN interface with the U-C interface shorted, or at the POTS interface with the U-R interface shorted, shall be less than or equal to 40 Ω. E.4.2.5 Isolation Resistance The isolation resistance of the POTS splitter should remain intact under the following conditions. E.4.2.5.1 L1-to- L2 Isolation Resistance The L1-to-L2 isolation resistance at the PSTN interface with the U-C interface opened, or at the POTS interface with the U-R interface opened, shall be greater than or equal to 10 MΩ. E.4.2.5.2 Isolation Resistance to Ground The isolation resistance ground at the PSTN interface with the U-C interface opened, or at the POTS interface with the U-R interface opened, shall be greater than or equal to 10 MΩ. E.4.2.6 Capacitance The capacitance of the POTS splitter should satisfy the following requirements. E.4.2.6.1 L1-to-L2 Capacitance The L1-to-L2 capacitance at the PSTN interface or the POTS interface shall be as follows: POTS splitter, either CO or Remote without the modem connected. 250nF Max (DC – 30Hz) Modem input allowance, including the DC blocking capacitors at the CO end. 35nF Max (DC – 30Hz) Modem with integral POTS splitter function or – external POTS splitter with 285nF Max (DC – 30Hz) both HPF and LPF functions, are the sum of the above E.4.2.6.2 Capacitance to ground The capacitance to ground at the PSTN interface with the U-C interface opened, or at the POTS interface with the U-R interface opened, shall be less than 1.0 nf E.4.3 AC Characteristics This paragraph contains the AC specifications of the voice band, such as the insertion loss, the attenuation variation, the delay distortion, the return loss, the longitudinal balance, the distortion caused by harmonics, and the termination, and the methods for measuring them. In addition it contains specifications and measurement methods for the out band and the ADSL band. E.4.3.1 Voice Band This section describes the AC characteristics in the voice band. 462 Boston St - Topsfield, MA 01983 - Phone: 978-887-8050 - Fax: 978-887-5434 P/N: AD-8039J E.4.3.1.1 Insertion Loss(at 1KHz) The insertion loss of the POTS splitter should be less than or equal to ± 1.0 dB. Using the test set-up shown in Figure E-20 and Figure E-21 , the insertion loss form the source to termination shall be measured with and without the POTS splitter/ZHP combination inserted. POTS U-R U-C Remote POTS splitter ZTr is the normal termination in test set ZT test (600ohm) LPF loop Test ZTr equipment (600ohm) xDSL ZHP-r (load) Where: ZHP-c = the impedance of R ADSL modem specified in Figure E-19 NOTE – The test loop is specified in Figure E-22 Figure E-20 – Transmission measurements in the voice band for the R POTS splitter. 140ohm 140ohm 100nF 140ohm 140ohm Note: This test loop model is valid only for voice band frequencies. 462 Boston St - Topsfield, MA 01983 - Phone: 978-887-8050 - Fax: 978-887-5434 P/N: AD-8039J Figure E-22 Test loop definition E.4.3.1.2 Attenuation Distortion in Voice-Band Variation The variation of insertion loss value form that measured with 1kHz shall be measured using the test set-up in Figure E-20 and Figure E-21. The attenuation of the POTS splitter between 0.2 and 3.4 kHz should be less than ±1.0 dB and between 3.4 and 4.0 kHz should be less than ±1.5dB E.4.3.1.3 Delay Distortion The increase in the delay distortion cause by the POTS splitter shall be as follows. 0.6 – 3.2 kHz: maximum of 200 µs 0.2 – 4.0 kHz: maximum of 250 µs The delay distortion of the POTS splitter shall be measured using Figure E-20 and Figure E-21 E.4.3.1.4 Return Loss Figure E-23 defines the configuration and the values of the test components that shall be used for impedance measurements in the voice band for both the CO and R POTS splitter units. The return loss of each splitter under the specified conditions shall be as follows 11dB(0.2 – 1.5 kHz) 10dB(1.5 – 2.0 kHz) 9dB(2.0 – 3.4 kHz) POTS PSTN U-x POTS splitter Test equipment LPF 0.12uF (Used only at co termintion) ZNL-x ZNL-x Return loss referce impedance ZHP-x xDSL 462 Boston St - Topsfield, MA 01983 - Phone: 978-887-8050 - Fax: 978-887-5434 P/N: AD-8039J Where ZNL-c = 150 Ω + (830Ω# #72 nF) ! ! ZNL-r = 150 Ω + (72nF# #(830Ω + 1uF) ! ZHP-c = the impedance presented to the POTS connection by an ATU-C through the capacitance of the POTS splitter DC blocking capacitors. ZHP-r = the impedance presented to the POTS connection by an ATU-R ! NOTE: The DC blocking capacitors are only for voice band frequencies. Figure E-23 – Impedance measurements in the voice band for the CO and R POTS splitters. E.4.3.1.5 Distortion Caused by Harmonics The distortion contributed by the low-pass filter shall be measured using the test configurations in Figure E-20 and FigureE-21. With an applied tone set as per IEEE 743, then, at a level of –9 dBm, the second and third order intermediation distortion products shall be at least 57 dB and 60 dB, respectively, below the received signal level. E.4.3.1.6 Longitudinal Balance The longitudinal balance of the POTS splitter shall be greater than 58 dB for frequencies ranging form 0.2 to 3.4 kHz and a DC bias current of 50 mA will be applies. xDSL port LB test LB test LPF load Line port source POTS Figure E-25- Longtiudinal balance remote test setup per IEEE 455 462 Boston St - Topsfield, MA 01983 - Phone: 978-887-8050 - Fax: 978-887-5434 P/N: AD-8039J E.4.3.2 Out Band The band between the voice band and ADSL band is defined as the out band in §E.4. In Japan, the out band is used with pulse metering (16 kHz) OVS signals (7.8 kHz), and OFFTALK-services (0 – 7.0 kHz). These specifications an measurement methods of the Out Band require further study. E.4.3.3 ADSL Band This paragraph describes the AC characteristics in the ADSL band. E.4.3.3.1 ADSL Band Attenuation The attenuation in the stop band of the low-pass filter (i.e., the difference in attenuation measured with and with and without the low-pass filter), shown in Figure E-27, shall be greater than 65 dB for frequencies ranging from 25 kHz to 300 kHz and 55 dB for frequencies ranging from 300 kHz to 1104 kHz with an input level of 10 dBm. Remote POTS splitter xDSL port ZHPr Line port POTS LPF Vm 600 ohm Source:100ohm 25-1104KHz balanced Figure E-27 – Measurement of the R POTS splitter attenuation in the ADSL band. 462 Boston St - Topsfield, MA 01983 - Phone: 978-887-8050 - Fax: 978-887-5434 Hi Z P/N: AD-8039J E.4.3.3.2 Input Impedance The insertion loss caused by the low-pass filter in the band from 25 kHz to 1104 kHz between nominal impedances with an input level of – 10 dBm, as shown in Figure E-28 and Figure E-29 shall be less than 0.35 dB. xDSL port Vm 100-ohm load LPF POTS Line port 600ohm Source:100ohm 25-1104KHz balanced Figure E-29 – Measurement of loading effect of the R POTS splitter in the ADSL band. Packing Length 10.5cm X Width 6.5cm X High 4cm Thinkness:0.3cm 462 Boston St - Topsfield, MA 01983 - Phone: 978-887-8050 - Fax: 978-887-5434