EE6307 Design and size a Miller

EE6307HOME ASSIGNMENT 1

INSTRUCTIONS

1. This assignment has 1 question and 2 parts, on pages 1-2.

2. Submit a hardcopy of your handwritten answers to Dr JJ Sit’s office: S2-B2a-31.

3. Submit a single ZIP file to the NTUlearn Assignment Tab containing:

1. A scanned softcopy of your handwritten answers
2. All LTspice files required to run your solution (*.asc, *.asy) and any *.log files1(a) Design and size a Miller-compensated 2-stage op-amp in the TSMC18 process thatmatches the Reid amplifier (2003) specifications with passband gain = 100 (i.e.40dB), bandwidth = 7kHz and UGBW = 700kHz (all within 10% margin).The first stage input G

m required will be based on your Matriculation number.If the Last digit of your Matriculation Number is Odd, design for G

m = 1 mA/V.If the Last Digit is Even, design for GThe choice of input transistors will depend on the last Letter of yourMatriculation Number. Letters A-F must use NMOS inputs, and Letters G-Z must use PMOS inputs.For example:

U2212345{A-F} Use NMOS inputs

U2212346{G-Z} Use PMOS inputs (i) A template for the Reid amplifier is given, with only the first stage of theopamp subcircuit provided, that you need to complete with a second stage.EE63072

(ii) Use the TSMC18 curves provided to size all NMOS 代写EE6307 Design and size a Miller transistors set to have thesame Wn, Ln values and all PMOS transistors set to have the same Wp, Lpvalues as parameters specified in the top-level simulation. All unknownparameter values are initially set to 1u by default as shown below.

Do not modify the following:

• PMOS pseudo-resistors provide the DC biasing on V+ and V- withLr=4um and Wr=1um to provide very high resistance > 1G.

• Supply voltage VDD = 2V, DC ground reference Vref = 1V (equivalent toa 1V low-voltage dual-supply)

• Output load capacitance CL = 10pF
• Capacitor divider {C1} = 20pF and {C2} = 0.2pF for {C1}/{C2} = 100

(iii) Show all calculations how you derive the final Ibias parameter value (note ID for each input transistor will be Ibias/2) along with any Miller compensationcomponent values (Rz, Cc) if required.

(iv) Explain all the design requirements you used to achieve closed loop stability.

(v) Show a screenshot or a drawing of your final op-amp configuration, with allthe component values labelled clearly.EE63073(b) Simulate your design in LTspice17 to verify if your hand calculations are correct.Note you cannot use LTspice24, as it does not record the AC small signalparameters in the .log file. So you must install LTspice17 instead, highlighted below.For more details about the bug in LTspice24, please visit this link.Attach screenshots of the following:

(i) .AC simulation of Vo from 0.1 Hz to 100MHz

(ii) .NOISE simulation from 0.1Hz to 50kHz as given, with the total integratedoutput noise calculated like shown below. (Hold Ctrl- and click on the onoiselabel at the top of the graph to integrate the curve)

(iii) Your .log file with the .MEAS results and timestamp from the .AC simulationas shown below.EE6307

4(iv) Finally, attach a screenshot of the input transistors AC small signal parametersfrom Id to Gmb values (showing an NMOS input pair highlighted below)And also show the AC small signal parameters from Id to Gmb for thecommon source second stage amplifier (showing PMOS below)Explain any significant differences from your hand calculations in part (a).

END OF ASSIGNMENT