AMIS49587C5871RG Datasheet AMIS49587C5871G, AMIS49587C5871RG, AMIS49587C5872RG | P13-P15

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4.1.4 Receiver External Parameters: Pin RX_IN, RX_OUT, REF_OUT

Table 12. RECEIVER EXTERNAL PARAMETERS: Pin RX_IN, RX_OUT, REF_OUT

Parameter Test Conditions Symbol Min Typ Max Unit

Input offset voltage 42 dB AGC gain = 42 dB V

OFFS_RX_IN

5 mV

Input offset voltage 0 dB AGC gain = 0 dB V

OFFS_RX_IN

50 mV

Max. peak input voltage

(corresponding to 62.5% of the SD

full scale)

AGC gain = 0 dB (Note 9) V

MAX_RX_IN

0.85 1.15 V

Input referred noise of the analog

receiver path

AGC gain = 42 dB

(Notes 9 and 10)

RX_IN

150 nV/√Hz

Input leakage current of receiver

input

LE_RX_IN

−1 1

Max. current delivered by REF_OUT I

Max_REF_OUT

−300 300 mA

Power supply rejection ratio of the

receiver input section

AGC gain = 42 dB (Note 11)

AGC gain = 42 dB (Note 12)

PSRR

LPF_OUT

AGC gain step AGC

step

5.7 6.3 dB

AGC range AGC

range

39.9 44.1 dB

Analog ground reference output

voltage

REF_OUT

1.52 1.78 V

Signal to noise ratio at 62.5% of the

SD full scale

(Notes 9 and 13) SN

AD_OUT

54 dB

Clipping level at the output of the

gain stage (RX_OUT)

CLIP_AGC_IN

1.15 1.65 Vp

9. Input at RX_IN, no other external components.

10.Characterization data only. Not tested in production.

11. A sinusoidal signal of 10 kHz and 100 mVpp is injected between VDDA and VSSA. The signal level at the differential LPF_OUT and

REF_OUT output is measured to determine the parameter.

12.A sinusoidal signal of 50 Hz and 100 mVpp is injected between VDDA and VSSA. The signal level at the differential LPF_OUT output is

measured to determine the parameter.

13.These parameters will be tested in production with an input signal of 95 kHz and 1 Vp by reading out the digital samples at the point AD_OUT

with the default settings of T_RX_MOD[7], SDMOD_TYP, DEC_TYP, and COR_F_ENA. The AGC gain is switched to 0 dB.

The receive LPF filter + AGC + low noise amplifier must have a frequency characteristic between the limits listed below. The

absolute output level depends on the operating condition. In production the measurement will be done for relative output levels

where the 0 dB reference value is measured at 50 kHz with a signal amplitude of 100 mV.

Table 13. RECEIVER FREQUENCY CHARACTERISTICS

Frequency (kHz)

Attenuation

Unit

Min Max

10 −0.5 0.5 dB

95 −1.3 0.5 dB

130 −4.5 −2.0 dB

165 −3.0 dB

330 −18.0 dB

660 −36.0 dB

1000 −50 dB

2000 −55 dB

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4.1.5 Power−on−Reset (POR)

Table 14. POWER−ON−RESET (POR)

Parameter Test Conditions Symbol Min Typ Max Unit

POR threshold V

POR

1.7 2.7 V

Power supply rise time 0 V to 3 V T

RPOR

1 ms

4.1.6 Digital Outputs: TDO, CLK_OUT

Table 15. DIGITAL OUTPUTS: TDO, CLK_OUT

Parameter Test Conditions Symbol Min Typ Max Unit

Low output voltage I

XOUT

= 4 mA V

0.4 V

High output voltage I

XOUT

= −4 mA V

0.85 V

4.1.7 Digital Outputs with Open Drains: TX_ENB, TXD

Table 16. DIGITAL OUTPUTS WITH OPEN DRAIN: TX_END, TXD

Parameter Test Conditions Symbol Min Typ Max Unit

Low output voltage I

XOUT

= 4 mA V

0.4 V

4.1.8 Digital Inputs: BR0, BR1

Table 17. DIGITAL INPUTS: BR0, BR1

Parameter Test Conditions Symbol Min Typ Max Unit

Low input level V

0.2 V

High input level 0 V to 3 V V

0.8 V

Input leakage current I

LEAK

−10 10

4.1.9 Digital Inputs with Pulldown: TDI, TMS, TCK, TRSTB, TEST

Table 18. DIGITAL INPUTS WITH PULLDOWN: TDI, TMS, TCK, TRSTB, TEST

Parameter Test Conditions Symbol Min Typ Max Unit

Low input level V

0.2 V

High input level V

0.8 V

Pulldown resistor (Note 14) R

7 50

14.Measured around a bias point of V

/2.

4.1.10 Digital Schmitt Trigger Inputs: RXD, RESB

Table 19. DIGITAL SCHMITT TRIGGER INPUTS: RXD, RESB

Parameter Test Conditions Symbol Min Typ Max Unit

Rising threshold level V

T+

0.8 V

Falling threshold level V

T−

0.2 V

Input leakage current I

LEAK

−10 1−

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4.1.11 Current Consumption

Table 20. CURRENT CONSUMPTION

Parameter Test Conditions Symbol Min Typ Max Unit

Current consumption in receive mode Current through V

and V

DDA

(Note 15)

60 80 mA

Current consumption in transmit mode Current through V

and V

DDA

(Note 15)

60 80 mA

Current consumption when RESB = 0 Current through V

and V

DDA

(Note 15)

RESET

4 mA

15. CLKARM is < 12 MHz, fCLK = 24 MHz.

4.1.12 Main Modem Characteristics

Table 21. OPERATING CHARACTERISTICS

Parameter Value Unit

Positive supply voltage

Negative supply voltage

3.0 to 3.6

−0.7 to + 0.3

Max peak output level 1.2 Vp

HD2 −60 dB

HD3 −60 dB

ALC Steps 3 dB

ALC Range (0 ... −21) dB

Maximum input signal 1.15 Vp

Input impedance 100

Input sensitivity 0.4 mV

AGC steps 6 dB

AGC range (0 ... +42) dB

Maximum 50 Hz variation 0, 1 Hz/s

Data rate 300/360 (Note 22)

600/720 (Note 22)

1200/1440 (Note 22)

2400/2880(Note 22)

baud

Programmable carrier (Note 21)

Frequency band

Frequency minimum 9 kHz

Frequency maximum 95 kHz

Frequency deviation between pairs >10 kHz

Dynamic range 40 (Note 16)

60 (Note 17)

80 (Note 18)

Narrow band interfere BER (Note 19) 10E−5

Maximum 50 Hz variation 0.1 Hz/s

16.FER = 0%.

17.FER = 0.3%.

18.FER = 8.0%.

19.Signal between −60 dB and 0 dB interference signal level is 30 dB above signal level between 20 kHz and 95 kHz.

20.Input at −40 dB, duty cycle between 10 − 50% pulse noise frequency between 100 to 1000 Hz. BER: Bit error rate FER: Frame error rate

(1frame is 288 bits).

21.Carriers frequency is programmable by steps of 10 Hz.

22.60 Hz mains frequency.

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AMIS49587C5871RG

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Network Controller & Processor ICs C587- NAF- AMIS49587

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AMIS49587C5871RG

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