getting another person know what you have done is a skilled job. several questions arise. . What What is the aim of all this? is it to measure a weight of say 5kg and show it as such? what accuracy do you desire? If 5kg is shown as 5.0kg or 5.00kg or 5.000 kg makes a lot of difference sinec the resolution is 100gm, 10gm and 1gm respectively. So what resolution do you require? fluctuation is a loose term. In terms of percentage how much is it? what is the maximum weight that you plan to show? an example is a 50kg rated indicator showing a fluctuation of 200gms when weight is 5.000kg. It shows as 5.00 or 5.20 or 4.80kg. In terms of full scale of 50kg, this fluctation is .4%, and is acceptable for many users. So please put down these factors and do not just use a 20 bit ADc and expect that you will get a resolution of 1 in 2^20!!! If ADcADC is 3V, unless its input is stable to within 3/2^20, you will get fluctuations. So it is a must that you indicate the whole scenario. You may like to have answers for the following: max weight you need to display. Min Resolution desired. Fluctuation allowed: short term : within say 5 secs. long terms say over 1 hour. In electronics it is easy to get lost in the gamut of devices available, but i doubt whether anybody has achieved a stability of 50kg/2^20 ever, and whether it is necessary to achive that stability. If that is not the stability that you desire, make sure that you have some figure for acceptable stability. And above all, distingusihdistinguish between accuracy and resolution. I I had a look at the sensors and find that you may be looking at a mximum of 200kg using four 50kg sensors. a resolution of 100gm is adequate, and fluctutaions more than =/- 100gms can be a nuisance. it could be becuase of improper excitation stability, pick up due to 50 hz and a host of other things. You may use a 1hz low pass filter (digital or analog) to filter the 50 hz variations if that is the cause. and make sure that the loading platform is very stable. apparanetapparent weight changes of 0.19 gm can be identified by the 20 bit Adc and what you require is just a 11 bit ADC actually. so fluctations of 2^9 bits = 512 counts are just accepatble!!! YOU DO HAVE A DIFFERENTIAL AMPLIFIER BUT I DOUBT WHETHER YOUR CIRCUIT IS SINGLE ENDED (IF THAT IS SO IT EXPLAINS THE FLUCTUTAIONS). GTE TO KNOW HOW ONE MAKES A DIFFERENTIAL AMPLIFIER -- A BOON TO ALL LOW LEVEL MEASUREMENTS IN THE PRESENCE OF MAINS INTERFERENCE. I obtained the parameters of MLC902 as follows: comprehensive error: 0.2%FS output resistance: 1000±10Ω Rated output: 1.0/0.5±0.15mv/v Insulation resistance: ≥2000MΩ(100VDC) Non-linearity: 0.2%FS Excitation voltage: 5~10VDC Hysteresis: 0.2%FS compensated temp: -10~+40ºC Repeatability: 0.15%FS use temperature: -20~+55ºC Creep: 0.15%FS/10MIN temp effect on zero: 0.2%FS/10ºC Zero balance: ±0.3mv Temp effect on span: 0.2%FS/10ºC Input resistance: 1090±10Ω defend grade: IP66 So if you know what each error means, it is possible that the erros add up to worse than 0.2% and hence a 11 bit ADC is more than adequate, as it will enable you to get a resolution of 100gms in 200Kg FS. Note that 0.2% is 400gms. So if you plan to use the ADC so that 200kg will mean about 80% of ADC range, simply making all the last 9 bits as zero will be acceptable and fluctuations will hopefully not bother you.. To get benefits of differential amplification, connect the ground of signal output of sensor not directly but through a 100 ohms to ground. trat the junction of 100 ohms and load sensor as input Lo. Input Hi is the other output point of load sesnor as already existing. the difference is then amplified, and 50 hz will cause much less problem.
getting another person know what you have done is a skilled job. several questions arise. . What is the aim of all this? is it to measure a weight of say 5kg and show it as such? what accuracy do you desire? If 5kg is shown as 5.0kg or 5.00kg or 5.000 kg makes a lot of difference sinec the resolution is 100gm, 10gm and 1gm respectively. So what resolution do you require? fluctuation is a loose term. In terms of percentage how much is it? what is the maximum weight that you plan to show? an example is a 50kg rated indicator showing a fluctuation of 200gms when weight is 5.000kg. It shows as 5.00 or 5.20 or 4.80kg. In terms of full scale of 50kg, this fluctation is .4%, and is acceptable for many users. So please put down these factors and do not just use a 20 bit ADc and expect that you will get a resolution of 1 in 2^20!!! If ADc is 3V, unless its input is stable to within 3/2^20, you will get fluctuations. So it is a must that you indicate the whole scenario.You may like to have answers for the following: max weight you need to display. Min Resolution desired. Fluctuation allowed: short term : within say 5 secs. long terms say over 1 hour. In electronics it is easy to get lost in the gamut of devices available, but i doubt whether anybody has achieved a stability of 50kg/2^20 ever, and whether it is necessary to achive that stability. If that is not the stability that you desire, make sure that you have some figure for acceptable stability. And above all, distingusih between accuracy and resolution. I had a look at the sensors and find that you may be looking at a mximum of 200kg using four 50kg sensors. a resolution of 100gm is adequate, and fluctutaions more than =/- 100gms can be a nuisance. it could be becuase of improper excitation stability, pick up due to 50 hz and a host of other things. You may use a 1hz low pass filter (digital or analog) to filter the 50 hz variations if that is the cause. and make sure that the loading platform is very stable. apparanet weight changes of 0.19 gm can be identified by the 20 bit Adc and what you require is just a 11 bit ADC actually. so fluctations of 2^9 bits = 512 counts are just accepatble!!! YOU DO HAVE A DIFFERENTIAL AMPLIFIER BUT I DOUBT WHETHER YOUR CIRCUIT IS SINGLE ENDED (IF THAT IS SO IT EXPLAINS THE FLUCTUTAIONS). GTE TO KNOW HOW ONE MAKES A DIFFERENTIAL AMPLIFIER -- A BOON TO ALL LOW LEVEL MEASUREMENTS IN THE PRESENCE OF MAINS INTERFERENCE. I obtained the parameters of MLC902 as follows: comprehensive error: 0.2%FS output resistance: 1000±10Ω Rated output: 1.0/0.5±0.15mv/v Insulation resistance: ≥2000MΩ(100VDC) Non-linearity: 0.2%FS Excitation voltage: 5~10VDC Hysteresis: 0.2%FS compensated temp: -10~+40ºC Repeatability: 0.15%FS use temperature: -20~+55ºC Creep: 0.15%FS/10MIN temp effect on zero: 0.2%FS/10ºC Zero balance: ±0.3mv Temp effect on span: 0.2%FS/10ºC Input resistance: 1090±10Ω defend grade: IP66 So if you know what each error means, it is possible that the erros add up
getting another person know what you have done is a skilled job. several questions arise. . What is the aim of all this? is it to measure a weight of say 5kg and show it as such? what accuracy do you desire? If 5kg is shown as 5.0kg or 5.00kg or 5.000 kg makes a lot of difference sinec the resolution is 100gm, 10gm and 1gm respectively. So what resolution do you require? fluctuation is a loose term. In terms of percentage how much is it? what is the maximum weight that you plan to show? an example is a 50kg rated indicator showing a fluctuation of 200gms when weight is 5.000kg. It shows as 5.00 or 5.20 or 4.80kg. In terms of full scale of 50kg, this fluctation is .4%, and is acceptable for many users. So please put down these factors and do not just use a 20 bit ADc and expect that you will get a resolution of 1 in 2^20!!! If ADC is 3V, unless its input is stable to within 3/2^20, you will get fluctuations. So it is a must that you indicate the whole scenario. You may like to have answers for the following: max weight you need to display. Min Resolution desired. Fluctuation allowed: short term : within say 5 secs. long terms say over 1 hour. In electronics it is easy to get lost in the gamut of devices available, but i doubt whether anybody has achieved a stability of 50kg/2^20 ever, and whether it is necessary to achive that stability. If that is not the stability that you desire, make sure that you have some figure for acceptable stability. And above all, distinguish between accuracy and resolution. I had a look at the sensors and find that you may be looking at a mximum of 200kg using four 50kg sensors. a resolution of 100gm is adequate, and fluctutaions more than =/- 100gms can be a nuisance. it could be becuase of improper excitation stability, pick up due to 50 hz and a host of other things. You may use a 1hz low pass filter (digital or analog) to filter the 50 hz variations if that is the cause. and make sure that the loading platform is very stable. apparent weight changes of 0.19 gm can be identified by the 20 bit Adc and what you require is just a 11 bit ADC actually. so fluctations of 2^9 bits = 512 counts are just accepatble!!! YOU DO HAVE A DIFFERENTIAL AMPLIFIER BUT I DOUBT WHETHER YOUR CIRCUIT IS SINGLE ENDED (IF THAT IS SO IT EXPLAINS THE FLUCTUTAIONS). GTE TO KNOW HOW ONE MAKES A DIFFERENTIAL AMPLIFIER -- A BOON TO ALL LOW LEVEL MEASUREMENTS IN THE PRESENCE OF MAINS INTERFERENCE. I obtained the parameters of MLC902 as follows: comprehensive error: 0.2%FS output resistance: 1000±10Ω Rated output: 1.0/0.5±0.15mv/v Insulation resistance: ≥2000MΩ(100VDC) Non-linearity: 0.2%FS Excitation voltage: 5~10VDC Hysteresis: 0.2%FS compensated temp: -10~+40ºC Repeatability: 0.15%FS use temperature: -20~+55ºC Creep: 0.15%FS/10MIN temp effect on zero: 0.2%FS/10ºC Zero balance: ±0.3mv Temp effect on span: 0.2%FS/10ºC Input resistance: 1090±10Ω defend grade: IP66 So if you know what each error means, it is possible that the erros add up to worse than 0.2% and hence a 11 bit ADC is more than adequate, as it will enable you to get a resolution of 100gms in 200Kg FS. Note that 0.2% is 400gms. So if you plan to use the ADC so that 200kg will mean about 80% of ADC range, simply making all the last 9 bits as zero will be acceptable and fluctuations will hopefully not bother you.. To get benefits of differential amplification, connect the ground of signal output of sensor not directly but through a 100 ohms to ground. trat the junction of 100 ohms and load sensor as input Lo. Input Hi is the other output point of load sesnor as already existing. the difference is then amplified, and 50 hz will cause much less problem.
getting another person know what you have done is a skilled job. several questions arise. . What is the aim of all this? is it to measure a weight of say 5kg and show it as such? what accuracy do you desire? If 5kg is shown as 5.0kg or 5.00kg or 5.000 kg makes a lot of difference sinec the resolution is 100gm, 10gm and 1gm respectively. So what resolution do you require? fluctuation is a loose term. In terms of percentage how much is it? what is the maximum weight that you plan to show? an example is a 50kg rated indicator showing a fluctuation of 200gms when weight is 5.000kg. It shows as 5.00 or 5.20 or 4.80kg. In terms of full scale of 50kg, this fluctation is .4%, and is acceptable for many users. So please put down these factors and do not just use a 20 bit ADc and expect that you will get a resolution of 1 in 2^20!!! If ADc is 3V, unless its input is stable to within 3/2^20, you will get fluctuations. So it is a must that you indicate the whole scenario.You may like to have answers for the following: max weight you need to display. Min Resolution desired. Fluctuation allowed: short term : within say 5 secs. long terms say over 1 hour. In electronics it is easy to get lost in the gamut of devices available, but i doubt whether anybody has achieved a stability of 50kg/2^20 ever, and whether it is necessary to achive that stability. If that is not the stability that you desire, make sure that you have some figure for acceptable stability. And above all, distingusih between accuracy and resolution. I had a look at the sensors and find that you may be looking at a mximum of 200kg using four 50kg sensors. a resolution of 100gm is adequate, and fluctutaions more than =/- 100gms can be a nuisance. it could be becuase of improper excitation stability, pick up due to 50 hz and a host of other things. You may use a 1hz low pass filter (digital or analog) to filter the 50 hz variations if that is the cause. and make sure that the loading platform is very stable. apparanet weight changes of 0.19 gm can be identified by the 20 bit Adc and what you require is just a 11 bit ADC actually. so fluctations of 2^9 bits = 512 counts are just accepatble!!! YOU DO HAVE A DIFFERENTIAL AMPLIFIER BUT I DOUBT WHETHER YOUR CIRCUIT IS SINGLE ENDED (IF THAT IS SO IT EXPLAINS THE FLUCTUTAIONS). GTE TO KNOW HOW ONE MAKES A DIFFERENTIAL AMPLIFIER -- A BOON TO ALL LOW LEVEL MEASUREMENTS IN THE PRESENCE OF MAINS INTERFERENCE. I obtained the parameters of MLC902 as follows: comprehensive error: 0.2%FS output resistance: 1000±10Ω Rated output: 1.0/0.5±0.15mv/v Insulation resistance: ≥2000MΩ(100VDC) Non-linearity: 0.2%FS Excitation voltage: 5~10VDC Hysteresis: 0.2%FS compensated temp: -10~+40ºC Repeatability: 0.15%FS use temperature: -20~+55ºC Creep: 0.15%FS/10MIN temp effect on zero: 0.2%FS/10ºC Zero balance: ±0.3mv Temp effect on span: 0.2%FS/10ºC Input resistance: 1090±10Ω defend grade: IP66 So if you know what each error means, it is possible that the erros add up
getting another person know what you have done is a skilled job. several questions arise. . What is the aim of all this? is it to measure a weight of say 5kg and show it as such? what accuracy do you desire? If 5kg is shown as 5.0kg or 5.00kg or 5.000 kg makes a lot of difference sinec the resolution is 100gm, 10gm and 1gm respectively. So what resolution do you require? fluctuation is a loose term. In terms of percentage how much is it? what is the maximum weight that you plan to show? an example is a 50kg rated indicator showing a fluctuation of 200gms when weight is 5.000kg. It shows as 5.00 or 5.20 or 4.80kg. In terms of full scale of 50kg, this fluctation is .4%, and is acceptable for many users. So please put down these factors and do not just use a 20 bit ADc and expect that you will get a resolution of 1 in 2^20!!! If ADc is 3V, unless its input is stable to within 3/2^20, you will get fluctuations. So it is a must that you indicate the whole scenario.You may like to have answers for the following: max weight you need to display. Min Resolution desired. Fluctuation allowed: short term : within say 5 secs. long terms say over 1 hour. In electronics it is easy to get lost in the gamut of devices available, but i doubt whether anybody has achieved a stability of 50kg/2^20 ever, and whether it is necessary to achive that stability. If that is not the stability that you desire, make sure that you have some figure for acceptable stability. And above all, distingusih between accuracy and resolution. I had a look at the sensors and find that you may be looking at a mximum of 200kg using four 50kg sensors. a resolution of 100gm is adequate, and fluctutaions more than =/- 100gms can be a nuisance. it could be becuase of improper excitation stability, pick up due to 50 hz and a host of other things. You may use a 1hz low pass filter (digital or analog) to filter the 50 hz variations if that is the cause. and make sure that the loading platform is very stable. apparanet weight changes of 0.19 gm can be identified by the 20 bit Adc and what you require is just a 11 bit ADC actually. so fluctations of 2^9 bits = 512 counts are just accepatble!!! YOU DO HAVE A DIFFERENTIAL AMPLIFIER BUT I DOUBT WHETHER YOUR CIRCUIT IS SINGLE ENDED (IF THAT IS SO IT EXPLAINS THE FLUCTUTAIONS). GTE TO KNOW HOW ONE MAKES A DIFFERENTIAL AMPLIFIER -- A BOON TO ALL LOW LEVEL MEASUREMENTS IN THE PRESENCE OF MAINS INTERFERENCE.
getting another person know what you have done is a skilled job. several questions arise. . What is the aim of all this? is it to measure a weight of say 5kg and show it as such? what accuracy do you desire? If 5kg is shown as 5.0kg or 5.00kg or 5.000 kg makes a lot of difference sinec the resolution is 100gm, 10gm and 1gm respectively. So what resolution do you require? fluctuation is a loose term. In terms of percentage how much is it? what is the maximum weight that you plan to show? an example is a 50kg rated indicator showing a fluctuation of 200gms when weight is 5.000kg. It shows as 5.00 or 5.20 or 4.80kg. In terms of full scale of 50kg, this fluctation is .4%, and is acceptable for many users. So please put down these factors and do not just use a 20 bit ADc and expect that you will get a resolution of 1 in 2^20!!! If ADc is 3V, unless its input is stable to within 3/2^20, you will get fluctuations. So it is a must that you indicate the whole scenario.You may like to have answers for the following: max weight you need to display. Min Resolution desired. Fluctuation allowed: short term : within say 5 secs. long terms say over 1 hour. In electronics it is easy to get lost in the gamut of devices available, but i doubt whether anybody has achieved a stability of 50kg/2^20 ever, and whether it is necessary to achive that stability. If that is not the stability that you desire, make sure that you have some figure for acceptable stability. And above all, distingusih between accuracy and resolution. I had a look at the sensors and find that you may be looking at a mximum of 200kg using four 50kg sensors. a resolution of 100gm is adequate, and fluctutaions more than =/- 100gms can be a nuisance. it could be becuase of improper excitation stability, pick up due to 50 hz and a host of other things. You may use a 1hz low pass filter (digital or analog) to filter the 50 hz variations if that is the cause. and make sure that the loading platform is very stable. apparanet weight changes of 0.19 gm can be identified by the 20 bit Adc and what you require is just a 11 bit ADC actually. so fluctations of 2^9 bits = 512 counts are just accepatble!!! YOU DO HAVE A DIFFERENTIAL AMPLIFIER BUT I DOUBT WHETHER YOUR CIRCUIT IS SINGLE ENDED (IF THAT IS SO IT EXPLAINS THE FLUCTUTAIONS). GTE TO KNOW HOW ONE MAKES A DIFFERENTIAL AMPLIFIER -- A BOON TO ALL LOW LEVEL MEASUREMENTS IN THE PRESENCE OF MAINS INTERFERENCE. I obtained the parameters of MLC902 as follows: comprehensive error: 0.2%FS output resistance: 1000±10Ω Rated output: 1.0/0.5±0.15mv/v Insulation resistance: ≥2000MΩ(100VDC) Non-linearity: 0.2%FS Excitation voltage: 5~10VDC Hysteresis: 0.2%FS compensated temp: -10~+40ºC Repeatability: 0.15%FS use temperature: -20~+55ºC Creep: 0.15%FS/10MIN temp effect on zero: 0.2%FS/10ºC Zero balance: ±0.3mv Temp effect on span: 0.2%FS/10ºC Input resistance: 1090±10Ω defend grade: IP66 So if you know what each error means, it is possible that the erros add up
getting another person know what you have done is a skilled job. several questions arise. . What is the aim of all this? is it to measure a weight of say 5kg and show it as such? what accuracy do you desire? If 5kg is shown as 5.0kg or 5.00kg or 5.000 kg makes a lot of difference sinec the resolution is 100gm, 10gm and 1gm respectively. So what resolution do you require? fluctuation is a loose term. In terms of percentage how much is it? what is the maximum weight that you plan to show? an example is a 50kg rated indicator showing a fluctuation of 200gms when weight is 5.000kg. It shows as 5.00 or 5.20 or 4.80kg. In terms of full scale of 50kg, this fluctation is .4%, and is acceptable for many users. So please put down these factors and do not just use a 20 bit ADc and expect that you will get a resolution of 1 in 2^20!!! If ADc is 3V, unless its input is stable to within 3/2^20, you will get fluctuations. So it is a must that you indicate the whole scenario.You may like to have answers for the following: max weight you need to display. Min Resolution desired. Fluctuation allowed: short term : within say 5 secs. long terms say over 1 hour. In electronics it is easy to get lost in the gamut of devices available, but i doubt whether anybody has achieved a stability of 50kg/2^20 ever, and whether it is necessary to achive that stability. If that is not the stability that you desire, make sure that you have some figure for acceptable stability. And above all, distingusih between accuracy and resolution. I had a look at the sensors and find that you may be looking at a mximum of 200kg using four 50kg sensors. a resolution of 100gm is adequate, and fluctutaions more than =/- 100gms can be a nuisance. it could be becuase of improper excitation stability, pick up due to 50 hz and a host of other things. You may use a 1hz low pass filter (digital or analog) to filter the 50 hz variations if that is the cause. and make sure that the loading platform is very stable. apparanet weight changes of 0.19 gm can be identified by the 20 bit Adc and what you require is just a 11 bit ADC actually. so fluctations of 2^9 bits = 512 counts are just accepatble!!! YOU DO HAVE A DIFFERENTIAL AMPLIFIER BUT I DOUBT WHETHER YOUR CIRCUIT IS SINGLE ENDED (IF THAT IS SO IT EXPLAINS THE FLUCTUTAIONS). GTE TO KNOW HOW ONE MAKES A DIFFERENTIAL AMPLIFIER -- A BOON TO ALL LOW LEVEL MEASUREMENTS IN THE PRESENCE OF MAINS INTERFERENCE.
getting another person know what you have done is a skilled job. several questions arise. . What is the aim of all this? is it to measure a weight of say 5kg and show it as such? what accuracy do you desire? If 5kg is shown as 5.0kg or 5.00kg or 5.000 kg makes a lot of difference sinec the resolution is 100gm, 10gm and 1gm respectively. So what resolution do you require? fluctuation is a loose term. In terms of percentage how much is it? what is the maximum weight that you plan to show? an example is a 50kg rated indicator showing a fluctuation of 200gms when weight is 5.000kg. It shows as 5.00 or 5.20 or 4.80kg. In terms of full scale of 50kg, this fluctation is .4%, and is acceptable for many users. So please put down these factors and do not just use a 20 bit ADc and expect that you will get a resolution of 1 in 2^20!!! If ADc is 3V, unless its input is stable to within 3/2^20, you will get fluctuations. So it is a must that you indicate the whole scenario.You may like to have answers for the following: max weight you need to display. Min Resolution desired. Fluctuation allowed: short term : within say 5 secs. long terms say over 1 hour. In electronics it is easy to get lost in the gamut of devices available, but i doubt whether anybody has achieved a stability of 50kg/2^20 ever, and whether it is necessary to achive that stability. If that is not the stability that you desire, make sure that you have some figure for acceptable stability. And above all, distingusih between accuracy and resolution. I had a look at the sensors and find that you may be looking at a mximum of 200kg using four 50kg sensors. a resolution of 100gm is adequate, and fluctutaions more than =/- 100gms can be a nuisance. it could be becuase of improper excitation stability, pick up due to 50 hz and a host of other things. You may use a 1hz low pass filter (digital or analog) to filter the 50 hz variations if that is the cause. and make sure that the loading platform is very stable. apparanet weight changes of 0.19 gm can be identified by the 20 bit Adc and what you require is just a 11 bit ADC actually. so fluctations of 2^9 bits = 512 counts are just accepatble!!!
getting another person know what you have done is a skilled job. several questions arise. . What is the aim of all this? is it to measure a weight of say 5kg and show it as such? what accuracy do you desire? If 5kg is shown as 5.0kg or 5.00kg or 5.000 kg makes a lot of difference sinec the resolution is 100gm, 10gm and 1gm respectively. So what resolution do you require? fluctuation is a loose term. In terms of percentage how much is it? what is the maximum weight that you plan to show? an example is a 50kg rated indicator showing a fluctuation of 200gms when weight is 5.000kg. It shows as 5.00 or 5.20 or 4.80kg. In terms of full scale of 50kg, this fluctation is .4%, and is acceptable for many users. So please put down these factors and do not just use a 20 bit ADc and expect that you will get a resolution of 1 in 2^20!!! If ADc is 3V, unless its input is stable to within 3/2^20, you will get fluctuations. So it is a must that you indicate the whole scenario.You may like to have answers for the following: max weight you need to display. Min Resolution desired. Fluctuation allowed: short term : within say 5 secs. long terms say over 1 hour. In electronics it is easy to get lost in the gamut of devices available, but i doubt whether anybody has achieved a stability of 50kg/2^20 ever, and whether it is necessary to achive that stability. If that is not the stability that you desire, make sure that you have some figure for acceptable stability. And above all, distingusih between accuracy and resolution. I had a look at the sensors and find that you may be looking at a mximum of 200kg using four 50kg sensors. a resolution of 100gm is adequate, and fluctutaions more than =/- 100gms can be a nuisance. it could be becuase of improper excitation stability, pick up due to 50 hz and a host of other things. You may use a 1hz low pass filter (digital or analog) to filter the 50 hz variations if that is the cause. and make sure that the loading platform is very stable. apparanet weight changes of 0.19 gm can be identified by the 20 bit Adc and what you require is just a 11 bit ADC actually. so fluctations of 2^9 bits = 512 counts are just accepatble!!! YOU DO HAVE A DIFFERENTIAL AMPLIFIER BUT I DOUBT WHETHER YOUR CIRCUIT IS SINGLE ENDED (IF THAT IS SO IT EXPLAINS THE FLUCTUTAIONS). GTE TO KNOW HOW ONE MAKES A DIFFERENTIAL AMPLIFIER -- A BOON TO ALL LOW LEVEL MEASUREMENTS IN THE PRESENCE OF MAINS INTERFERENCE.