参数资料
型号: ADP1046ACPZ-RL
厂商: Analog Devices Inc
文件页数: 34/92页
文件大小: 0K
描述: IC DGTL CTRLR 32LFCSP
标准包装: 5,000
应用: 电源
输入电压: 0 V ~ 1.6 V
电源电压: 3 V ~ 3.6 V
电流 - 电源: 20mA
工作温度: -40°C ~ 125°C
安装类型: 表面贴装
封装/外壳: 32-WFQFN 裸露焊盘,CSP
供应商设备封装: 32-LFCSP-WQ(5x5)
包装: 带卷 (TR)
ADP1046
VOLTAGE CALIBRATION AND TRIM
The voltage sense inputs are optimized for sensing signals at
1 V (the usable input range is 1.4 V). In a 12 V system, a 12:1
resistor divider is required to reduce the 12 V signal to below
1.4 V. It is recommended that the output voltage of the power
supply be reduced to 1 V at this pin for best performance. The
tolerance of the resistor divider introduces errors that need to
be trimmed. The ADP1046 has enough trim range to trim out
errors introduced by resistors with a tolerance of 0.5% or better.
The VS1, VS2, and VS3 ADCs produce a digital code equal to
VSx/1.6 × 4096. The ADCs output a digital word of 2560
decimal (0xA00) in Bits[15:4] of Register 0x15, Register 0x16,
and Register 0x17 when there is exactly 1 V at their inputs.
OUTPUT VOLTAGE SETTING (VS3+, VS3? TRIM)
The VS3± inputs require a gain trim. Set the output regulation
point to 100% of the nominal value (Register 0x31 = 0xA0).
Enable the power supply with no-load current. The power
supply output voltage is divided down by the VS3 resistor
divider to give 1 V across the VS3+ and VS3? differential input
pins. The VS3 trim register (Register 0x3A) is adjusted until
the output voltage is at the desired value. This step should be
performed before any other trim routine. The VS3 voltage
value in Register 0x17[15:4] reads 2560 decimal (0xA00).
VS1 TRIM
The VS1 input requires a gain trim. Enable the power supply
with no-load current. It is recommended that the VS1 voltage
be divided down by the VS1 resistor divider to give 1 V at the
VS1 pin. The VS1 trim register (Register 0x38) is adjusted until
the VS1 value in Register 0x15[15:4] reads 2560 decimal (0xA00).
VS2 TRIM
The VS2 input requires a gain trim. Enable the power supply
with no-load current. It is recommended that the VS2 voltage
be divided down by the VS2 resistor divider to give 1 V at the
VS2 pin. The VS2 trim register (Register 0x39) is adjusted until
the VS2 value in Register 0x16[15:4] reads 2560 decimal (0xA00).
RTD/OTP TRIM
The RTD input requires two trims: one for the current source
and one for the ADC. To use the internal linearization scheme,
additional trimming procedures are required.
Data Sheet
Trimming the Current Source
Bits[7:6] of Register 0x11 set the value of the current source to
10 μA, 20 μA, 30 μA, or 40 μA. Bits[5:0] of Register 0x11 can be
used to fine-tune the current value. By fine-tuning the internal
current source, component tolerance can be compensated for
and errors can be minimized. One LSB in Bits[5:0] = 160 nA.
A decimal value of 1 adds 160 nA to the current source set by
Bits[7:6]; a decimal value of 63 adds 63 × 160 nA = 10.08 μA
to the current source set by Bits[7:6].
To program a value for the current source, select the nearest
possible option (10 μA, 20 μA, 30 μA, or 40 μA) using
Register 0x11[7:6]. Then use Register 0x11[5:0] to achieve
the finer step size.
For example, to use a value of 46 μA as the current source,
follow these steps:
1. Place a known resistor (Rx) from RTD to AGND.
2. Set Register 0x11[7:6] to 11 (40 μA).
3. Increase the value of Register 0x11[5:0] one LSB at a time
until the voltage at the RTD pin is V RTD = 46 μA × Rx.
The current source is now calibrated and is set to the factory
default value.
Trimming the ADC
Due to the nonlinear nature of the thermistor, two trimming
options can be used.
Using the Internal Linearization Scheme
The first option uses the internal linearization scheme with
46 μA RTD current, which provides an accurate reading in °C
read in Register 0x1B in decimal format.
A 100 k?, 1% NTC thermistor with beta = 4250, 1% (such as the
NCP15WF104F03RC) in parallel with an external resistor of
16.5 k?, 1%, should be used with the ADP1046 . With this NTC
thermistor and resistor combination, the ADP1046 default current
source trim is set to 46 μA to achieve the best possible accuracy
over temperatures ranging from 85°C to 125°C.
If an external microcontroller is used, the RTD ADC code in
Register 0x1A can be fed into the microcontroller and a different
linearization scheme can be implemented in terms of a best-fit
polynomial for the selected NTC characteristics.
Rev. B | Page 34 of 92
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