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HC55185ECM Datasheet(PDF) 10 Page - Intersil Corporation |
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HC55185ECM Datasheet(HTML) 10 Page - Intersil Corporation |
10 / 20 page 10 FN4831.14 December 18, 2006 Low Power Standby Overview The low power standby mode (LPS, 000) should be used during idle line conditions. The device is designed to operate from the high battery during this mode. Most of the internal circuitry is powered down, resulting in low power dissipation. If the 2-wire (tip/ring) DC voltage requirements are not critical during idle line conditions, the device may be operated from the low battery. Operation from the low battery will decrease the standby power dissipation. 2-Wire Interface During LPS, the 2-wire interface is maintained with internal switches and voltage references. The Tip and Ring amplifiers are turned off to conserve power. The device will provide MTU compliance, loop current and loop supervision. Figure 3 represents the internal circuitry providing the 2-wire interface during low power standby. MTU Compliance Maintenance Termination Unit or MTU compliance places DC voltage requirements on the 2-wire terminals during idle line conditions. The minimum idle voltage is 42.75V. The high side of the MTU range is 56V. The voltage is expressed as the difference between Tip and Ring. The Tip voltage is held near ground through a 600 Ω resistor and switch. The Ring voltage is limited to a maximum of -56V (by MTU REF) when operating from either the high or low battery. A switch and 600 Ω resistor connect the MTU reference to the Ring terminal. When the high battery voltage exceeds the MTU reference of -56V, the Ring terminal will be clamped by the internal reference (typically -54V). The same Ring relationships apply when operating from the low battery voltage. For high battery voltages (VBH) less than or equal to the internal MTU reference threshold: Loop Current During LPS, the device will provide current to a load. The current path is through resistors and switches, and will be function of the off hook loop resistance (RLOOP). This includes the off hook phone resistance and copper loop resistance. The current available during LPS is determined by Equation 15. Internal current limiting of the standby switches will limit the maximum current to 20mA. Another loop current related parameter is longitudinal current capability. The longitudinal current capability is reduced to 10mARMS per pin. The reduction in longitudinal current capability is a result of turning off the Tip and Ring amplifiers. On Hook Power Dissipation The on hook power dissipation of the device during LPS is determined by the operating voltages and quiescent currents and is calculated using Equation 16. The quiescent current terms are specified in the electrical tables for each operating mode. Load power dissipation is not a factor since this is an on hook mode. Some applications may specify a standby current. The standby current may be a charging current required for modern telephone electronics. Standby Current Power Dissipation Any standby line current, ISLC, introduces an additional power dissipation term PSLC. Equation 17 illustrates the power contribution is zero when the standby line current is zero. If the battery voltage is less than -49V (the MTU clamp is off), the standby line current power contribution reduces to Equation 18. Most applications do not specify charging current requirements during standby. When specified, the typical charging current may be as high as 5mA. TABLE 3. DEVICE INTERFACES DURING LPS INTERFACE ON OFF NOTES Receive x AC transmission, impedance matching and ringing are disabled during this mode. Ringing x Transmit x 2-Wire x Amplifiers disabled. Loop Detect x Switch hook or ground key. FIGURE 3. LPS 2-WIRE INTERFACE CIRCUIT DIAGRAM TIP AMP RING AMP TIP RING MTU REF GND 600 Ω 600 Ω V RING V BH 4 + = (EQ. 14) I LOOP 1 – 49 – () – () 600 600 R LOOP ++ () ⁄ = (EQ. 15) P LPS V BH I BHQ × V BL I BLQ × V CC I CCQ × ++ = (EQ. 16) P SLC I SLC V BH 49 – 1I SLC x1200 ++ () × = (EQ. 17) P SLC I SLC V BH 1I SLC x1200 ++ () × = (EQ. 18) HC55185 |
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