**CMO.efs**

**File Name: **CMO.efs

**Description: **

CMO (Chande Momentum Oscillator)

**Formula Parameters:**

*Length*: 9*TopBand*: 70*LowBand*: -70

**Notes: **

This indicator plots Chandre Momentum Oscillator. This indicator was developed by Tushar Chande. A scientist, an inventor, and a respected trading system developer, Mr. Chande developed the CMO to capture what he calls "pure momentum". For more definitive information on the CMO and other indicators we recommend the book The New Technical Trader by Tushar Chande and Stanley Kroll.

The CMO is closely related to, yet unique from, other momentum oriented indicators such as Relative Strength Index, Stochastic, Rate-of-Change, etc. It is most closely related to Welles Wilder`s RSI, yet it differs in several ways:

- It uses data for both up days and down days in the numerator, thereby directly measuring momentum;
- The calculations are applied on unsmoothed data. Therefore, short-term extreme movements in price are not hidden. Once calculated, smoothing can be applied to the CMO, if desired;
- The scale is bounded between +100 and -100, thereby allowing you to clearly see changes in net momentum using the 0 level. The bounded scale also allows you to conveniently compare values across different securities.

**Download File: **

CMO.efs**EFS Code:**

/********************************* Provided By: eSignal (Copyright c eSignal), a division of Interactive Data Corporation. 2009. All rights reserved. This sample eSignal Formula Script (EFS) is for educational purposes only and may be modified and saved under a new file name. eSignal is not responsible for the functionality once modified. eSignal reserves the right to modify and overwrite this EFS file with each new release. Description: CMO (Chande Momentum Oscillator) Version: 1.0 03/27/2009 Formula Parameters: Default: Length 9 TopBand 70 LowBand -70 Notes: This indicator plots Chandre Momentum Oscillator. This indicator was developed by Tushar Chande. A scientist, an inventor, and a respected trading system developer, Mr. Chande developed the CMO to capture what he calls "pure momentum". For more definitive information on the CMO and other indicators we recommend the book The New Technical Trader by Tushar Chande and Stanley Kroll. The CMO is closely related to, yet unique from, other momentum oriented indicators such as Relative Strength Index, Stochastic, Rate-of-Change, etc. It is most closely related to Welles Wilder`s RSI, yet it differs in several ways: - It uses data for both up days and down days in the numerator, thereby directly measuring momentum; - The calculations are applied on unsmoothed data. Therefore, short-term extreme movements in price are not hidden. Once calculated, smoothing can be applied to the CMO, if desired; - The scale is bounded between +100 and -100, thereby allowing you to clearly see changes in net momentum using the 0 level. The bounded scale also allows you to conveniently compare values across different securities. **********************************/ var fpArray = new Array(); var bInit = false; function preMain() { setPriceStudy(false); setStudyTitle("CMO (Chandre Momentum Oscillator)"); setCursorLabelName("CMO", 0); setDefaultBarFgColor(Color.blue, 0); setStudyMax(101); setStudyMin(-101); var x=0; fpArray[x] = new FunctionParameter("Length", FunctionParameter.NUMBER); with(fpArray[x++]){ setLowerLimit(1); setDefault(9); } fpArray[x] = new FunctionParameter("TopBand", FunctionParameter.NUMBER); with(fpArray[x++]){ setLowerLimit(1); setDefault(70); } fpArray[x] = new FunctionParameter("LowBand", FunctionParameter.NUMBER); with(fpArray[x++]){ setLowerLimit(-101); setDefault(-70); } } var xCMO = null function main(Length, TopBand, LowBand) { var nBarState = getBarState(); var nCMO = 0; if (nBarState == BARSTATE_ALLBARS) { if (Length == null) Length = 9; if (TopBand == null) TopBand = 70; if (LowBand == null) LowBand = -70; } if (bInit == false) { xCMO = efsInternal("Calc_CMO", Length); addBand(TopBand, PS_SOLID, 1, Color.red, "TopBand"); addBand(LowBand, PS_SOLID, 1, Color.brown, "LowBand"); bInit = true; } nCMO = xCMO.getValue(0); if (nCMO == null) return; return nCMO; } var xSecondInit = false; var xSMA = null; var xMOM = null; function Calc_CMO(LenCMO) { var nRes = 0; if(xSecondInit == false){ xSMA = sma(LenCMO, efsInternal("Calc_Price")); xMOM = mom(LenCMO); xSecondInit = true } var nSMA = xSMA.getValue(0); if (nSMA == null) return; nRes = 100 * (xMOM.getValue(0) / (nSMA * LenCMO)); return nRes; } var yMOM = null; function Calc_Price(){ if(yMOM==null) yMOM = mom(1); return Math.abs(yMOM.getValue(0)); }