Datasheet
AFE5804
www.ti.com
SBOS442C –JUNE 2008–REVISED OCTOBER 2011
Table 3. SUMMARY OF FUNCTIONS SUPPORTED BY SERIAL INTERFACE
(1) (2) (3) (4)
(continued)
ADDRESS
IN HEX D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0 NAME DESCRIPTION DEFAULT
X X X X GAIN_CH4<3:0> Programmable gain channel 4. 0dB gain
X X X X GAIN_CH3<3:0> Programmable gain channel 3. 0dB gain
2A
X X X X GAIN_CH2<3:0> Programmable gain channel 2. 0dB gain
X X X X GAIN_CH1<3:0> Programmable gain channel 1. 0dB gain
X X X X GAIN_CH5<3:0> Programmable gain channel 5. 0dB gain
X X X X GAIN_CH6<3:0> Programmable gain channel 6. 0dB gain
2B
X X X X GAIN_CH7<3:0> Programmable gain channel 7. 0dB gain
X X X X GAIN_CH8<3:0> Programmable gain channel 8. 0dB gain
Single-
1 1 X DIFF_CLK Differential clock mode.
ended clock
Enables the duty-cycle
1 1 X EN_DCC Disabled
correction circuit.
External
42
Drives the external reference reference
1 1 X EXT_REF_VCM
mode through the VCM pin. drives REFT
and REFB
Controls the phase of LCLK
1 1 X X PHASE_DDR<1:0> 90 degrees
output relative to data.
0 X PAT_DESKEW Enables deskew pattern mode. Inactive
45
X 0 PAT_SYNC Enables sync pattern mode. Inactive
Binary twos complement Straight
1 1 X BTC_MODE
format for ADC output. offset binary
Serialized ADC output comes LSB-first
1 1 X MSB_FIRST
out MSB-first. output
Enables SDR output mode
DDR output
1 1 X EN_SDR (LCLK becomes a 12x input
46
mode
clock).
Controls whether the LCLK
Rising edge
rising or falling edge comes in
of LCLK in
1 1 1 1 FALL_SDR the middle of the data window
middle of
when operating in SDR output
data window
mode.
SUMMARY OF FEATURES
POWER IMPACT (Relative to Default)
FEATURES DEFAULT SELECTION AT f
S
= 50MSPS
ANALOG FEATURES
Internal or external reference Internal reference mode takes approximately 20mW more
N/A Pin
(driven on the REFT and REFB pins) power on AVDD1
External reference driven on the CM pin Off Register 42 Approximately 8mW less power on AVDD1
Duty cycle correction circuit Off Register 42 Approximately 7mW more power on AVDD1
With zero input to the ADC, low-frequency noise suppression
Low-frequency noise suppression Off Register 14 causes digital switching at f
S
/2, thereby increasing LVDD power
by approximately 5.5mW/channel
Differential clock mode takes approximately 7mW more power
Single-ended or differential clock Single-ended Register 42
on AVDD1
Refer to the Power-Down Modes section in the Electrical
Power-down mode Off Pin and register 0F
Characteristics table
DIGITAL FEATURES
Programmable digital gain (0dB to 12dB) 0dB Registers 2A and 2B No difference
Straight offset or BTC output Straight offset Register 46 No difference
Swap polarity of analog input pins Off Register 24 No difference
LVDS OUTPUT PHYSICAL LAYER
LVDS internal termination Off Register 12 Approximately 7mW more power on AVDD
LVDS current programmability 3.5mA Register 11 As per LVDS clock and data buffer current setting
LVDS OUTPUT TIMING
LSB- or MSB-first output LSB-first Register 46 No difference
SDR mode takes approximately 2mW more power on LVDD
DDR or SDR output DDR Register 46
(at f
S
= 30MSPS)
LCLK phase relative to data output Refer to Figure 94 Register 42 No difference
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