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参数资料
型号: LTC1909-8EG#TRPBF
厂商: Linear Technology
文件页数: 26/32页
文件大小: 0K
描述: IC REG CTRLR BUCK PWM CM 28-SSOP
标准包装: 2,000
PWM 型: 电流模式
输出数: 1
频率 - 最大: 200kHz
占空比: 90%
电源电压: 4 V ~ 36 V
降压:
升压:
回扫:
反相:
倍增器:
除法器:
Cuk:
隔离:
工作温度: -40°C ~ 85°C
封装/外壳: 28-SSOP(0.209",5.30mm 宽)
包装: 带卷 (TR)
LTC1909-8
APPLICATIO S I FOR ATIO
I TH ( NOM ) = ?
? R SENSE OUT L ? + 0 . 8 V
– ? I
? I
? ( 0 . 003 ? ) ? 7 . 5 A – 4 . 7 A ? + 0 . 8 V
= ?
Bypositioningtheoutputvoltage60mVabovetheregula-
tion point at no load, it will only drop 65mV below the
regulation point after the load step, well within the ± 100mV
tolerance. Implementing active voltage positioning re-
quires setting a precise gain between the sensed current
and the output voltage. Because of the variability of
MOSFET on-resistance, it is prudent to use a sense resis-
tor with active voltage positioning. In order to minimize
power lost in this resistor, a low value is chosen of 0.003 ? .
The nominal sense voltage will now be:
V SNS(NOM) = (0.003 ? )(15A) = 45mV
To maintain a reasonable current limit, the voltage on the
V RNG pin is reduced to its minimum value of 0.5V, corre-
sponding to a 50mV nominal sense voltage.
of these resistors must equal R VP and their ratio deter-
mines nominal value of the I TH pin voltage when the error
amplifier input is zero. To center the load line around the
regulation point, the I TH pin voltage must be set to
correspond to half the output current. The relation be-
tween I TH voltage and the output current is:
? 12 V ? ? 1 ?
? V RNG ? ? 2 ?
? 12 V ? ? 1 ?
? 0 . 5 V ? ? 2 ?
= 1 . 17 V
Solving for the required values of the resistors:
Next, the gain of the LTC1909-8 error amplifier must be
determined. The change in I TH voltage for a corresponding
change in the output current is:
R VP 1 =
5 V
5 V – I TH ( NOM )
R VP =
5 V
5 V – 1 . 17 V
9 . 53 k
? I TH = ?
? I
? V RNG ?
R VP 2 =
? 12 V ?
? R SENSE OUT
= ( 24 ) ( 0 . 003 ? )( 15 A ) = 1 . 08 V
= 12 . 44 k
5 V
I TH ( NOM )
R VP =
5 V
1 . 17 V
9 . 53 k = 40 . 73 k
? I TH m VP ?
= g R
? ? V OUT
The corresponding change in the output voltage is deter-
mined by the gain of the error amplifier and feedback
divider. The LTC1909-8 error amplifier has a transconduc-
tance g m that is constant over both temperature and a wide
± 40mV input range. Thus, by connecting a load resistance
R VP to the I TH pin, the error amplifier gain can be precisely
set for accurate active voltage positioning.
? 0 . 8 V ?
? V OUT ?
Solving for this resistance value:
The modified circuit is shown in Figure 8. Figures 9 and 10
show the transient response without and with active
voltage positioning. Both circuits easily stay within ± 100mV
of the 1.5V output. However, the circuit with active voltage
positioning accomplishes this with only three output ca-
pacitors rather than five. Refer to Design Solutions 10 for
additional information about active voltage positioning.
SMBus Protocols
The Write Word and Read Word protocols (Figure 11)
share three common features. First, the 7-bit slave ad-
dress for both protocols is internally hardwired to 1110
R VP =
V OUT ? I TH
( 0 . 8 V ) g m ? V OUT
001B = E2H. A single R/W bit follows the slave address.
This bit is low for data transfer from the microprocessor
to the LTC1909-8 and high for transfers in the opposite
=
( 1 . 5 V )( 1 . 08 V )
( 0 . 8 V )( 1 . 7 mS )( 125 mV )
= 9 . 53 k
direction.
Second, the LTC1909-8 decodes only the three most
significant bits of the 8-bit command code. Table 3 shows
The gain setting resistance R VP is implemented with two
resistors, R VP1 connected from I TH to ground and R VP2
the four valid combinations. All other combinations are
ignored.
connected from I TH to INTV CC . The parallel combination
19098f
26
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