Abstract: The DS1802 is a dual audio taper-potentiometer with logarithmic resistive characteristics over the device range. Each potentiometer provides 65 wiper positions with a 1dB increment per step and device mute with at least 90dB of attenuation. The specifications given in this datasheet only refer to decibel measurements. If a designer wishes to calculate these values in ratiometric terms, a conversion is necessary. This application note reviews the conversion from decibel to ratiometric. The formula is given in Excel as an example, for engineers wishing to build Excel tables depicting gain calculations for the DS1802 and other audio potentiometers. While the DS1802 is given as an example, this application note pertains to any audio taper potentiometer. 注册参加Maxim在TechOnline举办的在线研讨会 (English only) Overview The DS1802 is a dual audio taper-potentiometer with logarithmic resistive characteristics over the device range. Each potentiometer provides 65 wiper positions with a 1dB increment per step and device mute with at least 90dB of attenuation. Table 1 shows the dB output as a function of the potentiometer wiper setting. Table 1. DS1802 Gain (dB) as a Function of Wiper Setting - Resistance Characteristics POSITION OUTPUT LEVEL (dB) 0 0 1 -1 2 -2 3 -3 4 -4 5 -5 • • • • • • 63 -63 64 (mute) < -90 This chart only gives the output as a function of dB attenuation with reference to 0dB attenuation at the wiper 0 position. If the ratiometric output is desired, the ratio of the output signal relative to the input signal, a conversion must be made to convert dB to a ratiometric attenuation value. dB attenuation is defined as 20 X LOG(VOUT/VIN). The desired ratiometric output is defined as: RL/REE = RL/(RL + RH) = VOUT/VIN with RH = defined as the high-side of the DS1802, RL defined as the low side of the DS1802, REE defined as the end-to-end resistance, and VOUT and VIN defined as the output and input signals, respectively, as shown in Figure 1. Figure 1. DS1802 block diagram (one potentiometer shown). If we know the dB attenuation for a given potentiometer setting, we can calculate the ratiometric output by solving for VOUT/VIN or: the Ratiometric Output = INVERSE LOG10(dB attenuation/20). If one wanted to calculate the output signal ratiometrically as a function of the input in a spreadsheet like Excel, no function for the inverse log function exists. As the INVERSE LOG function of X can be calculated as 10X, in Excel the power function can be used as follows: = (10)^(dB/20), where dB can be a value stored in another cell in the spreadsheet. Table 2 below summarizes the ratiometric outputs available for the DS1802. While this example is given for the DS1802, it may be used in calculations to determine the ratiometric output of any LOG potentiometer. Table 2. Ratiometric output of the DS1802 as a function of dB (Wiper) setting dB Attenuation Ratiometric Output dB Attenuation Ratiometric Output 0 1.00000 -32 0.02512 -1 0.89125 -33 0.02239 -2 0.79433 -34 0.01995 -3 0.70795 -35 0.01778 -4 0.63096 -36 0.01585 -5 0.56234 -37 0.01413 -6 0.50119 -38 0.01259 -7 0.44668 -39 0.01122 -8 0.39811 -40 0.01000 -9 0.35481 -41 0.00891 -10 0.31623 -42 0.00794 -11 0.28184 -43 0.00708 -12 0.25119 -44 0.00631 -13 0.22387 -45 0.00562 -14 0.19953 -46 0.00501 -15 0.17783 -47 0.00447 -16 0.15849 -48 0.00398 -17 0.14125 -49 0.00355 -18 0.12589 -50 0.00316 -19 0.11220 -51 0.00282 -20 0.10000 -52 0.00251 -21 0.08913 -53 0.00224 -22 0.07943 -54 0.00200 -23 0.07079 -55 0.00178 -24 0.06310 -56 0.00158 -25 0.05623 -57 0.00141 -26 0.05012 -58 0.00126 -27 0.04467 -59 0.00112 -28 0.03981 -60 0.00100 -29 0.03548 -61 0.00089 -30 0.03162 -62 0.00079 -31 0.02818 -63 0.00071 -32 0.02512 -64 MUTE This ratiometric output can also be expressed as the ration of RL to REE (=RL/REE) so, as an example, the value of RL at a wiper setting of -21 dB would be 0.08913 x REE. 相关型号   APP 234: Mar 03, 2003 DS1802 双路音量调节电位器，带有按钮控制 完整的数据资料 (PDF, 832kB) 免费样品 自动更新 需要自动接收最新发布的应用笔记吗？请订阅EE-Mail™ (English only)。 我们期待您的反馈！ 喜欢？不喜欢？有待改善？或为我们提供建议？请与我们联系 — 我们将根据您的意见或建议改善我们的工作。 网页评价或提供建议   下载，PDF格式 (67kB)  AN234, AN 234, APP234, Appnote234, Appnote 234