MT66R7072A10AB5ZZW.ZCA TR 数据手册
Product Brief – 121-Ball LPDDR2-PCM and LPDDR2 MCP
Features
Product Brief
LPDDR2-PCM and Mobile LPDDR2
121-Ball MCP
MT66R7072A10AB5ZZW.ZCA, MT66R7072A10ACUXZW.ZCA
MT66R5072A10ACUXZW.ZFA
Features
Figure 1: MCP Block Diagram
Micron® LPDDR2-PCM and LPDDR2 components
RoHS-compliant, “green” package
Shared LPDDR2-PCM and LPDDR2 interfaces
Space-saving multichip package
Ultra low-voltage core and I/O power supplies
– VDD1 = 1.7–1.95V
– VDDCA/VDDQ = 1.14–1.3V
– VDD2 = 1.14–1.3V
• Wireless temperature range: –25°C to +85°C
•
•
•
•
•
LPDDR2-PCM
Power
Interface
LPDDR2-PCM Specific Features
LPDDR2 Power
• Memory interface
– 16-bit data bus width
– Two data transfers per clock cycle
– Clock frequency up to 400 MHz
– Active to read/write delay: tRCD = 86ns
– Configurable output drive strength
• Memory architecture
– 4-row data buffers (RDB)
– Row data buffer size: 32B
– 4-row address buffers (RAB)
– Emulated block size: 128KB
• Program/erase performance
– Legacy programming mode up to 10MB/s (TYP)
– Overwrite up to 3 MB/s (TYP)
– Legacy block erase time: 60ms (TYP)
• Dual operations
– PROGRAM/ERASE in one partition while READ
in other partitions
– No delay between READ and WRITE operations
• Locking scheme
– All blocks locked at power-up
– 8Mb lock region
– Any combination of regions can be locked
– Absolute write protection with
VACC = V SS
• Quality and reliability
– Minimum 100k WRITE cycles/row
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121ball_pcm_lpddr2_product_brief.pdf – Rev. B 12/12 EN
LPDDR2-PCM
Device
LPDDR2
Device
LPDDR2
Mobile LPDDR2-Specific Features
•
•
•
•
•
•
Programmable read and write latencies
Programmable burst lengths: 4, 8, or 16
Partial-array self refresh (PASR)
Deep power-down (DPD) mode
Selectable output drive strength
Adjustable clock frequency and clock stop capabilities
Note: This product brief does not provide detailed device information. For the complete data sheet, which
covers device functionality, operating modes, and
specifications, or for further information on any aspect of the product, contact the Micron sales office.
Part Number:The MT66R5072A10ACUXZW.ZFA is
available as an engineering sample only.
1
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2012 Micron Technology, Inc. All rights reserved.
Products and specifications discussed herein are subject to change by Micron without notice.
Product Brief – 121-Ball LPDDR2-PCM and LPDDR2 MCP
Features
Part Numbering Information
Micron LPDDR2-PCM and LPDDR2 devices are available in different configurations and densities. The MCP/PoP
part numbering guide is available at www.micron.com/numbering.
Figure 2: Part Number Chart
MT 66R
707
2
A
1
0
A
CUX*
Z
W . ZCA - ES
Production Status
Micron Technology
Blank = Production
Product Family
ES = Engineering samples
66R = LPDDR2-PCM I/F + LPDDR2
MS = Mechanical samples
Die Revision
Density
PCM
xNAND
0
xLPDDR2
Contact factory
N/A
1
32Mb = 4MB
16Mb = 2MB
Operating Temperature Range
2
64Mb = 8MB
32Mb = 4MB
W = –25°C to +85°C (Wireless)
3
128Mb = 16MB
64Mb = 8MB
I = –40°C to +85°C (Industrial)
4
256Mb = 32MB
128Mb = 16MB
5
512Mb = 64MB
256Mb = 32MB
Special Options
6
768Mb = 96MB
384Mb = 48MB
Contact factory
7
1Gb = 128MB
512Mb = 64MB
Package Codes
Voltage Range (Core_ I/0)
PCM
LPDDR2
1
1.8_1.8
1.8_1.8
2
1.8_1.2
1.8_1.2
B5Z = 121-ball WFBGA, 11mmx10mmx0.8mm
CUX = 121-ball WFBGA, 8mmx8mmx0.8mm
*X = a null character used as a placeholder
LPDDR2 Description
Die Count
0 = N/A
PCM
LPDDR2
A = X16DDR2_S4 2KB Page
A
1
1
B = X16DDR2_S2 2KB Page
B
1
2
NAND Description
PCM Configuration
Bus Width
Frequency
1
x16
166 MHz
2
x16
266 MHz
3
x16
333 MHz
4
x16
400 MHz
Note:
0 = N/A
1. The MT66R5072A10ACUXZW.ZFA is available as an engineering sample only. This MCP will be packaged as
512Mb LPDDR-PCM and 512Mb LPDDR2, 121-ball, 8mm x 8mm x 0.8mm.
Device Marking
Due to the size of the package, the Micron-standard part number is not printed on the top of the device. Instead,
an abbreviated device mark consisting of a 5-digit alphanumeric code is used. The abbreviated device marks are
cross-referenced to the Micron part numbers at the FBGA Part Marking Decoder site: www.micron.com/decoder.
To view the location of the abbreviated mark on the device, refer to customer service note CSN-11, “Product Mark/
Label,” at www.micron.com/csn.
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Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2012 Micron Technology, Inc. All rights reserved.
Product Brief – 121-Ball LPDDR2-PCM and LPDDR2 MCP
MCP General Description
MCP General Description
Micron MCP products combine LPDDR2-PCM and Mobile LPDDR2 devices in a single
MCP. These products target mobile applications with low-power, high-performance,
and minimal package-footprint design requirements. The LPDDR2-PCM and Mobile
LPDDR2 devices are also members of the Micron discrete memory products portfolio.
The bus architecture of this device also supports separate LPDDR2-PCM and Mobile
LPDDR2 functionality without concern for device interaction.
Device Diagrams
Figure 3: 121-Ball (LPDDR2-PCM and LPDDR2) Functional Block Diagram
NV-CS#
NV-CKE
VDD1
LPDDR2–PCM
VDDQ
CK/CK#
DQS[1:0]
VDDCA
DQS#[1:0]
VSS
DQ[15:0]
VSSQ
DM[1:0]
VSSCA
CA[9:0]
VREFDQ
LPDDR2
VREFCA
D-CS#
VDD2
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121ball_pcm_lpddr2_product_brief.pdf – Rev. B 12/12 EN
ZQ
D-CKE
3
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© 2012 Micron Technology, Inc. All rights reserved.
Product Brief – 121-Ball LPDDR2-PCM and LPDDR2 MCP
Ball Assignments and Descriptions
Ball Assignments and Descriptions
Figure 4: 121-Ball VFBGA (LPDDR2-PCM x16; LPDDR2 x16) Ball Assignments
A
B
C
D
E
F
G
H
J
K
L
M
N
P
R
1
2
3
4
5
6
7
8
9
10
11
DNU
DNU
NC
NC
NC
NC
VDD2
VSS
VDDQ
DNU
DNU
DNU
NC
NC
NC
NC
NC
VDD1
DQ15
DQ14
VSSQ
DNU
NC
NC
NC
NC
NC
NC
DQ11
DQ12
DQ13
VDD2
NC
DQ10
VSSQ
VSS
ZQ
DQ9
VDDQ
VDD1
CA8
DQS1
VSSQ
VSSCA
CA7
DM1
VDDQ
VDDCA
CA5
VREF(DQ)
VDD2
VDD2
VREF(CA)
DM0
VDD1
CK
CK#
DQS0
VDDQ
NV-CS0#
D-CS#
DQ6
VSSQ
CA4
CA3
DQ5
VDDQ
VDDCA
CA2
CA1
DQ3
DQ2
VSSQ
DNU
VSSCA
CA0
DNU
DNU
1
2
CA9
DQ8
CA6
VSS
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
DQS1#
DQS0#
NC
DQ7
NV-CKE0
RFU
NC
RFU
D-CKE
VACC
DQ0
DQ1
DQ4
VSSQ
DNU
VSS
VDD2
VDD1
VSS
VDD2
VSS
VDDQ
DNU
DNU
3
4
5
6
7
8
9
10
11
LPDDR2-specific
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A
B
C
D
E
F
G
H
J
K
L
M
N
P
R
LPDDR-PCM-specific
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2012 Micron Technology, Inc. All rights reserved.
Product Brief – 121-Ball LPDDR2-PCM and LPDDR2 MCP
Ball Assignments and Descriptions
Table 1: x16 LPDDR2-PCM Ball Descriptions
Symbol
Type
Description
NV-CS#
Input
Chip select: CS# is considered part of the command code and is sampled at the
rising edge of CK. When registered, CS# LOW enables, and CS# HIGH disables,
the command decoder. All commands are masked when CS# is registered HIGH.
NV-CKE
Input
Clock enable: CKE HIGH activates and CKE LOW deactivates the internal clock
signals, input buffers, and output drivers. Power-saving modes are entered and
exited via CKE transitions. CKE is considered part of the command code. CKE is
sampled at the rising edge of CK.
Table 2: x16 Mobile LPDDR2 Ball Descriptions
Symbol
Type
D-CKE
Input
Clock enable.
D-CKE is used for a single LPDDR2. For the signal description, refer to NV-CKE
description.
D-CS#
Input
Chip select:
D-CS# is used for a single LPDDR2. For the signal description, refer to NV-CS# description.
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121ball_pcm_lpddr2_product_brief.pdf – Rev. B 12/12 EN
Description
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© 2012 Micron Technology, Inc. All rights reserved.
Product Brief – 121-Ball LPDDR2-PCM and LPDDR2 MCP
Ball Assignments and Descriptions
Table 3: LPDDR2 Ball Descriptions
Symbol
Type
Description
CA[9:0]
Input
Command/address inputs: Provide the command and address inputs according to
the command truth table.
CK, CK#
Input
Clock: CK and CK# are differential clock inputs. All CA inputs are sampled on
both the positive and negative edge of CK. CS and CKE inputs are sampled at
the positive edge of CK. AC timings are referenced to clock.
DM[1:0]
Input
Data mask:DM is an input mask signal for write data. Although DM balls are input-only, the DM loading is designed to match that of DQ and DQS balls.
DM[1:0] is DM for each of the two data bytes, respectively.
DQ[15:0]
Input/
output
Data bus: Data inputs/outputs.
DQS[3:0]
DQS#[3:0]
Input/
output
Data strobe: Coordinates READ/WRITE transfers of data; one DQS/DQS# pair per
DQ byte.
VDD1
Supply
VDD1: LPDDR2 power supply 1.
VDD2
Supply
VDD2: LPDDR2 power supply 2.
VDDCA
Supply
VDDCA: LPDDR2 CA power supply.
VDDQ
Supply
VDDQ: LPDDR2 I/O power supply.
VREFCA
Supply
VREFCA: LPDDR2 reference for CA pins.
VREFDQ
Supply
VREFDQ: LPDDR2 reference for DQ pins.
VSSCA
Supply
VSSCA: LPDDR2 I/O ground.
VSSQ
Supply
VSSQ: LPDDR2 I/O ground.
VSS
Supply
VSS: Shared ground.
ZQ
Input
External impedance (240-Ohm): This signal is used to calibrate the device output
impedance.
Table 4: Non-Device-Specific Descriptions
Symbol
Type
DNU
–
Do not use: Must be grounded or left floating.
NC
–
No connect: Not internally connected.
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121ball_pcm_lpddr2_product_brief.pdf – Rev. B 12/12 EN
Description
6
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© 2012 Micron Technology, Inc. All rights reserved.
Product Brief – 121-Ball LPDDR2-PCM and LPDDR2 MCP
Phase Change Memory General Description
Phase Change Memory General Description
PCM is a new class of nonvolatile memory devices that stores information through a reversible structural phase change in a chalcogenide material. The material exhibits a
change in both electrical and optical properties when changed from the amorphous
(disordered) to the polycrystalline (regularly ordered) state. The amorphous state corresponds to the reset state (0); the polycrystalline state corresponds to the set state (1). In
PCM, information is stored during the change in resistance the chalcogenide material
undergoes during a phase change
The device uses a DDR architecture on the command/address (CA) bus to reduce the
number of input pins in the system. The 10-bit CA bus contains command, address, and
row buffer information. Each command uses one clock cycle, during which command
information is transferred on both the positive and negative edge of the clock. The device also uses a DDR architecture on the DQ pins to achieve high-speed operation.
The LPDDR2-PCM device uses a complete set of commands that are compatible with
the JEDEC industry-standard specification No. JESD209-2E.
The DDR architecture is essentially a 4n-prefetch architecture with an interface designed to transfer two data bits per DQ every clock cycle at the I/O pins. A single read or
write access effectively consists of a single, 4n-bit wide, one-clock-cycle data transfer at
the internal core and four corresponding, n-bit wide, one-half-clock-cycle data transfers at the I/O pins.
The device is organized into four RABs and RDBs, 32 bytes each. Read or write accesses
to device are performed issuing a sequence of PREACTIVE commands to deliver part of
the row address to one of four RABs in the device; ACTIVATE commands to fill one of
the four RDBs in the device; and READ or WRITE commands.
Operations other than array reads are performed by accessing an overlay window that is
mapped over the array space of the memory. The overlay window base address is programmed using the mode registers.
The device can be erased electrically at block level and programmed in-system on a
word-by-word basis using a V DD1 supply for the circuitry and V DDQ supply for the I/O
pins. An optional V ACC power supply is provided for factory programming.
A multiple partition architecture allows dual operations: While writing or erasing in one
partition, READ operations are possible in other partitions. Only one partition at a time
can be in write or erase mode.
Erase can be suspended to perform a WRITE or READ operation in any other block except for the one being erased, and then resumed. Writing can be suspended to read data
at any memory location except the one being modified, and then resumed.
To issue embedded commands like PROGRAM or ERASE, the operation code and data
are written to the overlay window of the memory. An internal program/erase controller
manages the timings necessary for embedded operations. The end of a WRITE or
ERASE operation can be detected and any error conditions identified in the status register. The command set required to control the memory is consistent with the JEDEC
standard.
Read and write accesses to the device are burst oriented at different frequencies using a
differential clock up to 400 MHz. Accesses start at a selected location and continue for a
configured number of locations.
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Product Brief – 121-Ball LPDDR2-PCM and LPDDR2 MCP
Phase Change Memory General Description
The device features a power-down mode. When clock enable (CKE) is registered LOW,
power-down mode is enabled. In this condition, the power consumption is reduced to
the standby value.
The device features an individual locking region scheme that allows any region to be
locked or unlocked, enabling code and data protection. The array is divided into 8Mb
locking regions. All locking regions have three levels of protection. They can be locked
and locked down individually, preventing any accidental writing or erasure. There is also additional hardware protection against writing and erasing. When V ACC < V ACCLK, all
lock regions are protected against program or erase. All lock regions are locked at power-up.
VACC shall not change during the period starting from at least 1µs prior to the initiation
of any embedded operation until that embedded operation is complete.
The device includes a 64-bit segment area, containing a unique 64-bit device number
and a 256-bit (16-word) protection register area that is one-time programmable (OTP)
by the user. The user-programmable region can be permanently protected, programming the 16-bit protection register lock. See Security Features and Protection Registers
for more details.
PCM offers bit alterability or an overwrite feature: PCM technology supports the ability
to change each memory bit independently from 0 to 1 or 1 to 0 without erasing the
block first. Bit alterability enables software to write to the nonvolatile memory similar to
writing to RAM or EEPROM without the overhead of erasing blocks prior to writing. Bitalterable writes use command sequences similar to word writes and buffer writes. This
mode is often referred to as overwrite as opposed to program, in which only 0s are written and 1s are treated as masks.
The device is rated at 100,000 write alterations per row. The device is supplied with all
the bits erased (set to 1).
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Product Brief – 121-Ball LPDDR2-PCM and LPDDR2 MCP
LPDDR2-PCM Organization
LPDDR2-PCM Organization
Array
The 512Mb device has a 512-block array and is divided into 64Mb partitions. There are 8
partitions containing 64 blocks of 128KB each.
The 1Gb device has a 1024-block array and is divided into 64Mb partitions. There are 16
partitions containing 64 blocks of 128KB each.
Memory Map
Table 5: 512Mb LPDDR2-PCM
Partition 7
Partition 0
64Mb
64Mb
Block
Number
Size (KB)
Word Address
Range
511
128
1FF0000–1FFFFFF
⋮
⋮
⋮
448
128
1C00000–1C0FFFF
63
128
03F0000–03FFFFF
⋮
⋮
⋮
0
128
0000000–000FFFF
Block
Number
Size (KB)
Word Address
Range
1023
128
3FF0000–3FFFFFF
⋮
⋮
⋮
960
128
3C00000–3C0FFFF
63
128
03F0000–03FFFFF
⋮
⋮
⋮
0
128
0000000–000FFFF
Table 6: 1Gb LPDDR2-PCM
Partition 15
Partition 0
64Mb
64Mb
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Product Brief – 121-Ball LPDDR2-PCM and LPDDR2 MCP
Package Dimensions
Package Dimensions
Figure 5: 121-Ball VFBGA – 8mm x 8mm x 0.8mm (Package Code: CU)
Seating plane
A
121X Ø0.32
Dimensions
apply to solder
balls post-reflow
on Ø0.30 SMD
ball pads.
0.08 A
Ball A1 ID
(covered by SR)
10
11
8
9
6
7
4
5
Ball A1 ID
2
3
1
A
B
C
D
E
F
G
H
J
K
L
M
N
P
R
7 CTR
8 ±0.1
0.5 TYP
0.7 ±0.1
0.5 TYP
5 CTR
0.16 MIN
8 ±0.1
Note:
1. All dimensions are in millimeters.
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Product Brief – 121-Ball LPDDR2-PCM and LPDDR2 MCP
Package Dimensions
Figure 6: 121-Ball VFBGA – 11m x 10mm x 0.8mm (Package Code: B5Z)
Seating plane
A
121X Ø0.3 ±0.05
0.08 A
Ball A1 ID
Ball A1 ID
10 8 6 4 2
11 9 7 5 3 1
A
B
C
D
E
F
G
H
J
K
L
M
N
P
R
7 CTR
10 ±0.1
0.5 TYP
0.5 TYP
0.8 MAX
5 CTR
0.15 MIN
11 ±0.1
Note:
1. All dimensions are in millimeters.
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121ball_pcm_lpddr2_product_brief.pdf – Rev. B 12/12 EN
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Product Brief – 121-Ball LPDDR2-PCM and LPDDR2 MCP
Revision History
Revision History
Rev. B – 12/12
• Added new part number
Rev. A – 08/12
• Initial release
8000 S. Federal Way, P.O. Box 6, Boise, ID 83707-0006, Tel: 208-368-3900
www.micron.com/productsupport Customer Comment Line: 800-932-4992
Micron and the Micron logo are trademarks of Micron Technology, Inc.
All other trademarks are the property of their respective owners.
This data sheet contains minimum and maximum limits specified over the power supply and temperature range set forth herein.
Although considered final, these specifications are subject to change, as further product development and data characterization sometimes occur.
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121ball_pcm_lpddr2_product_brief.pdf – Rev. B 12/12 EN
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© 2012 Micron Technology, Inc. All rights reserved.