HYB18H1G321AF QIMONDA [Qimonda AG], HYB18H1G321AF Datasheet - Page 8
HYB18H1G321AF
Manufacturer Part Number
HYB18H1G321AF
Description
GDDR3 Graphics RAM 1-Gbit GDDR3 Graphics RAM
Manufacturer
QIMONDA [Qimonda AG]
Datasheet
1.HYB18H1G321AF.pdf
(48 pages)
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2.1
Rev. 0.92, 2007-10
06122007-MW7D-3G3M
Ball
CLK, CLK
CKE
CS0
CS1
RAS, CAS,
WE
DQ<0:31>
DM<0:3>
RDQS<0:3>
WDQS<0:3> Input
Type
Input
Input
Output
Input
Input
Input
Input
I/O
Ball Definition and Description
Detailed Function
Clock:
CLK and CLK are differential clock inputs. Address and command inputs are latched on the positive
edge of CLK. Graphics SDRAM outputs (RDQS, DQs) are referenced to CLK. CLK and CLK are not
internally terminated.
Clock Enable:
CKE HIGH activates and CKE LOW deactivates the internal clock and input buffers. Taking CKE
LOW provides Power Down. If all banks are precharged, this mode is called Precharge Power Down
and Self Refresh mode is entered if a Auto Refresh command is issued. If at least one bank is open,
Active Power Down mode is entered and no Self Refresh is allowed. All input receivers except CLK,
CLK and CKE are disabled during Power Down. In Self Refresh mode the clock receivers are
disabled too. Self Refresh Exit is performed by setting CKE asynchronously HIGH. Exit of Power
Down without Self Refresh is accomplished by setting CKE HIGH with a positive edge of CLK.
The value of CKE is latched asynchronously by Reset during Power On to determine the value of the
termination resistor of the address and command inputs.
CKE is not allowed to go LOW during a RD, a WR or a snoop burst.
Chip Select:
CS0 enables the command decoder when low and disables it when high. When the command
decoder is disabled, new commands with the exception of DTERDIS are ignored, but internal
operations continue. In 2-CS mode, CS0 is exclusively used for MRS, EMRS and SREFEN.
Chip Select:
CS1 is only evaluated in 2-CS mode, and it is used as the chip-select signal for the second memory
block.
Command Inputs:
Sampled at the positive edge of CLK, CAS, RAS, and WE define (together with corresponding CS)
the command to be executed.
Data Input/Output:
The DQ signals form the 32 bit data bus. During READs the balls are outputs and during WRITEs
they are inputs. Data is transferred at both edges of RDQS.
Input Data Mask:
The DM signals are input mask signals for WRITE data. Data is masked when DM is sampled HIGH
with the WRITE data. DM is sampled on both edges of WDQS. DM0 is for DQ<0:7>, DM1 is for
DQ<8:15>, DM2 is for DQ<16:23> and DM3 is for DQ<24:31>. Although DM balls are input-only,
their loading is designed to match the DQ and WDQS balls.
Read Data Strobes:
RDQSx are unidirectional strobe signals. During READs the RDQSx are transmitted by the Graphics
SDRAM and edge-aligned with data. RDQS have preamble and postamble requirements. RDQS0 is
for DQ<0:7>, RDQS1 for DQ<8:15>, RDQS2 for DQ<16:23> and RDQS3 for DQ<24:31>.
Write Data Strobes: WDQSx are unidirectional strobe signals. During WRITEs the WDQSx are
generated by the controller and center aligned with data. WDQS have preamble and postamble
requirements. WDQS0 is for DQ<0:7>, WDQS1 for DQ<8:15>, WDQS2 for DQ<16:23> and WDQS3
for DQ<24:31>.
8
HYB18H1G321AF–10/11/14
Internet Data Sheet
Ball Description
1-Gbit GDDR3
TABLE 2
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