JAJSG80B May 2015 – September 2020 MSP430FG6425 , MSP430FG6426 , MSP430FG6625 , MSP430FG6626
PRODUCTION DATA
PARAMETER | TEST CONDITIONS | VCC | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|---|
VCC | Analog supply voltage | AVCC = DVCC, AVSS = DVSS = 0 V | 2.2 | 3.6 | V | ||
CCPCAP | External charge pump capacitor to AVSS. | Required when charge pump is enabled | 20 | 22 | 24 | nF | |
ICP_PEAK | Charge pump peak current | OARRI = 0h to 1h, ICP_LOAD = 0 μA |
1.6 | mA | |||
ICP | Charge pump average current | OARRI = 1h, ICP_LOAD = 100 μA | 570(1) | 710(1) | μA | ||
tCP_EN_fast | Charge pump enable time fast | OARRI = 0h to 1h, ICP_LOAD = 0 μA, AFE biases previously enabled and settled which can be done with REFON=1 or other modules requesting REFON. |
50 | μs | |||
tCP_EN_slow | Charge pump enable time slow | OARRI = 0h to 1h, ICP_LOAD = 0 μA, Includes AFE bias settling |
75 | μs | |||
IOA | Supply current, per opamp | IO = 0 mA, OARRI = 0h (charge pump disabled) |
105(1) | 130(1) | μA | ||
VOS | Input offset voltage | Noninverting, unity gain | ±2 | mV | |||
dVOS/dT | Input offset voltage temperature drift | Noninverting, unity gain | ±1 | μV/°C | |||
dVOS/dV | Input offset voltage voltage drift | Noninverting, unity gain | ±3 | μV/V | |||
Cin | Input capacitance | Differential | 4 | pF | |||
Common mode | 6 | pF | |||||
PSRR_DC | Power supply rejection ratio, DC | Noninverting, unity gain, VINP = positive input of OA = 1 V |
50 | μV/V | |||
VCM | Common mode voltage range(2) | OARRI = 0h, Noninverting, unity gain |
0.1 | VCC - 1.0 | V | ||
OARRI = 1h, Noninverting, unity gain |
0.1 | VCC - 0.1 | V | ||||
CMRR_DC | Common mode rejection ratio, DC | Over common-mode voltage range | 110 | dB | |||
en | Input voltage noise density | f = 100 Hz, OARRI = 0h or 1h | 3.0 V | 90 | nV/√Hz | ||
f = 50 kHz, OARRI = 0h or 1h | 3.0 V | 25 | |||||
AOL | Open-loop voltage gain, DC | 95 | dB | ||||
GBW | Gain-bandwidth product | CL = 100 pF, OAM = 1h | 800 | kHz | |||
SR | Slew rate | Noninverting, unity gain, CL = 100 pF, OAM = 1h |
0.4 | V/μs | |||
tSETTLE | Settling time | Noninverting, unity gain, 2.0-V step, 0.1%, OAM = 1h |
3.0 V | 5.3 | μs | ||
VO | Voltage output swing from rail | –250 μA ≤ IO ≤ 250 μA, Noninverting, unity gain (OAM = 1h) |
5 | 55 | mV | ||
tEN_FAST | Enable time fast | Noninverting, unity gain, OAM = 0h transition to 1h, AFE biases previously enabled and settled which can be done with REFON = 1 or other modules requesting REFON(3) |
3 | 7 | μs | ||
tEN_SLOW | Enable time slow | Noninverting,unity gain, OARRI = 0h transition to 1h, OAM = 0h transition to 1h, Includes AFE bias and charge pump settling(3) |
190 | 225 | μs | ||
tDIS | Disable time | 0.4 | μs |
Section 8.8.14.2 explains how to compute the total current, ITOTAL, when the OA and associated modules are used. See Table 8-1 for a similar table for the CTSD16. A "yes" means it must be included in computing ITOTAL.
As an example, assume that the application uses the CTS16D in rail-to-rail input mode (CTSD16RRI = 1) with the internal reference (CTSD16REFS = 1) and OA0 and OA1 are enabled in rail-to-rail input modes, OARRI = 1. The total current, ITOTAL, would be computed as follows:
ITOTAL = ICTSD16 + ICTSD16CLK+ ICP + IREFBG + 2 × IOA