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169981 Datasheet(PDF) 11 Page - Linear Technology |
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169981 Datasheet(HTML) 11 Page - Linear Technology |
11 / 20 page LTC1699 Series 11 APPLICATIO S I FOR ATIO output voltage of a DC/DC converter that generates the CPU core supply voltage. Its programmable ratios (see Table 1) are designed for 0.8V-referenced converters such as the LTC1628, LTC1702, LTC1735 and LTC1778 and comply with the Intel 5-bit desktop (VRM8.4 for LTC1699-81 and VRM9.0 for LTC1699-82) and 5-bit mobile VID codes. On power-up, the outputs of both registers are internally set to 11111B. The LTC1699-80, LTC1699-81 and LTC1699-82 provide three pins, CPU_ON, IO_ON, and CLK_ON to (optionally) control three DC/DC converters that generate the CPU, I/O and clock buffer VCC voltages in a VRM. These open drain, N-channel output pins usually connect to the RUN/SS pins of the converters and pull low to shut down the converters or become a high impedance state to allow the converters to soft-start. The PGOOD pin is driven from an internal timer that pulls PGOOD low for 50 µs typical whenever the resistor divider setting is changed or the converters are allowed to soft- start. Over the entire temperature and supply voltage range, the timer low period is 70 µs max which meets the 100 µs max converter output settling time specified by Intel. The PGOOD pin, if tied to the FCB pin of an LTC DC/ DC converter, reduces the time needed for the converter output to decrease to a lower voltage under light load conditions by forcing the converter into continuous mode for 50 µs. The TTL compatible VRON input pin and the output of the internal on/off state machine (SMBON) control the state of the CPU_ON, IO_ON, CLK_ON and PGOOD pins. SMBON is accessed using SMBus protocols and must be pro- grammed to a high state before the converters can turn on. The SMBus protocols (see Figure 2) incorporate safe- guards against errors caused by bus conflicts. Resistor Divider The resistor divider is designed specifically for DC/DC converters, such as the LTC1628, LTC1702, LTC1735, LTC1778 and LTC1929 with a reference voltage of 0.8V. It consists of a fixed resistor, RFB1 connected between the SENSE and FB pins and a variable resistor, RFB2, con- nected between the FB and GND pins. The SENSE and FB pins are tied to the output and feedback nodes of the DC/ DC converter respectively. The output of the DC/DC con- verter is given by: VOUT = VREF • (RFB2+RFB1)/RFB2 where VREF is the internal reference voltage of the con- verter. Each resistor has a tolerance of ±30% but the ratio, (RFB2+RFB1)/RFB2, is specified to within ±0.35% over temperature. The error budget for the DC/DC converter output voltage must include the ±0.35% ratio tolerance and the tolerance in VREF. The value of RFB1 is fixed and RFB2 is changed to vary the divider setting. The value of RFB2 for any divider setting can be calculated from the above equation, assuming that RFB1 = 10kΩ for the LTC1699-80 and LTC1699-82 and 20k Ω for the LTC1699-81. Table 1 shows the output voltage of a DC/DC converter (VREF = 0.8V) for all 32 settings of the resistor divider. The divider setting is determined by the outputs (VID0-VID4) of the register selected by the SEL pin. SMBus Interface The SMBus interface uses two wires: SDA and SCL. Data to the LTC1699-80, LTC1699-81 or LTC1699-82, is latched at the rising edge of the SCL clock input and shifted out at the falling edge. The VIL and VIH logic threshold voltages of the SDA and SCL pins are 0.8V and 2.1V respectively and comply with Rev 1.1 version of the Intel System Management Bus Specifications. The Write Word and Read Word protocols (Figure 2) share three common features. First, the 7-bit slave address for both protocols is internally hardwired to 1110 001B = E2H. A single R/W bit follows the slave address. This bit is low for data transfer from the microprocessor to the LTC1699- 80, LTC1699-81 or LTC1699-82 and high for transfers in the opposite direction. Second, the LTC1699-80, LTC1699-81 and LTC1699-82 decode only the three most significant bits of the 8-bit command code. Table 2 shows the four valid combina- tions. All other combinations are ignored. Third, the Data Low and Data High bytes correspond to Registers 0 and 1 respectively. In Write Word protocol with C7 = C6 = 0, C5 = 1, the five most significant bits (VID0- VID4) of these bytes specify a resistor divider setting. |
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