AD9883A
Table VI. Control Register Map (continued)
Register
Write and
Read or
Read Only
Hex
Address
Default
Value
Bits
7:0
7:0
7:0
Name
Function
16H
17H
18H
R/W
RO
Test Register
Test Register
Test Register
Reserved for future use.
Reserved for future use.
Reserved for future use.
RO
*The AD9883A only updates the PLL divide ratio when the LSBs are written to (register 02H).
2-WIRE SERIAL CONTROL REGISTER DETAIL CHIP
IDENTIFICATION
The AD9883A updates the full divide ratio only when this
register is written to.
00
7–0 Chip Revision
An 8-bit register that represents the silicon revision. Revi-
sion 0 = 0000 0000, Revision 1 = 0000 0001, Revision 2 =
0000 0010.
CLOCK GENERATOR CONTROL
03
7–6 VCO Range Select
Two bits that establish the operating range of the clock
generator.
PLL DIVIDER CONTROL
VCORNGE must be set to correspond with the desired
operating frequency (incoming pixel rate).
01
7–0 PLL Divide Ratio MSBs
The 8 most significant bits of the 12-bit PLL divide ratio
The PLL gives the best jitter performance at high fre-
quencies. For this reason, to output low pixel rates and
still get good jitter performance, the PLL actually operates
at a higher frequency but then divides down the clock rate
afterwards. Table VII shows the pixel rates for each VCO
range setting. The PLL output divisor is automatically
selected with the VCO range setting.
PLLDIV. (The operational divide ratio is PLLDIV + 1.)
The PLL derives a master clock from an incoming Hsync
signal. The master clock frequency is then divided by an
integer value, such that the output is phase-locked to
Hsync. This PLLDIV value determines the number of
pixel times (pixels plus horizontal blanking overhead) per
line. This is typically 20% to 30% more than the number
of active pixels in the display.
Table VII. VCO Ranges
The 12-bit value of the PLL divider supports divide ratios
from 2 to 4095. The higher the value loaded in this regis-
ter, the higher the resulting clock frequency with respect
to a fixed Hsync frequency.
VCORNGE
Pixel Rate Range
00
01
10
11
12–32
32–64
64–110
110–140
VESA has established some standard timing specifications
that assist in determining the value for PLLDIV as a
function of horizontal and vertical display resolution and
frame rate (Table V).
The power-up default value is 01.
However, many computer systems do not conform pre-
cisely to the recommendations, and these numbers should
be used only as a guide. The display system manufacturer
should provide automatic or manual means for optimizing
PLLDIV. An incorrectly set PLLDIV will usually produce
one or more vertical noise bars on the display. The greater
the error, the greater the number of bars produced.
03
5–3 CURRENT Charge Pump Current
Three bits that establish the current driving the loop filter
in the clock generator.
Table VIII. Charge Pump Currents
CURRENT
Current (A)
The power-up default value of PLLDIV is 1693
(PLLDIVM = 69H, PLLDIVL = DxH).
000
001
010
011
100
101
110
111
50
100
150
250
350
500
750
1500
The AD9883A updates the full divide ratio only when the
LSBs are changed. Writing to the MSB by itself will not
trigger an update.
02
7–4 PLL Divide Ratio LSBs
The 4 least significant bits of the 12-bit PLL divide ratio
PLLDIV. The operational divide ratio is PLLDIV + 1.
The power-up default value of PLLDIV is 1693
(PLLDIVM = 69H, PLLDIVL = DxH).
CURRENT must be set to correspond with the desired
operating frequency (incoming pixel rate).
The power-up default value is current = 001.
REV. B
–17–