W39V080FA Datasheet PDF - Winbond
| Part Number | W39V080FA | |
| Description | 1M X 8 CMOS FLASH MEMORY | |
| Manufacturers | Winbond | |
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W39V080FA Data Sheet
www.DataSheet4U.com
1M × 8 CMOS FLASH MEMORY
Table of Contents-
WITH FWH INTERFACE
1. GENERAL DESCRIPTION ......................................................................................................... 3
2. FEATURES ................................................................................................................................. 3
3. PIN CONFIGURATIONS............................................................................................................. 4
4. BLOCK DIAGRAM ...................................................................................................................... 4
5. PIN DESCRIPTION..................................................................................................................... 4
6. FUNCTIONAL DESCRIPTION.................................................................................................... 5
6.1 Interface Mode Selection and Description...................................................................... 5
6.2 Read (Write) Mode ......................................................................................................... 5
6.3 Reset Operation.............................................................................................................. 5
6.4 Accelerated Program Operation ..................................................................................... 5
6.5 Boot Block Operation and Hardware Protection at Initial- #TBL & #WP ........................ 5
6.6 Sector Erase Command ................................................................................................. 6
6.7 Program Operation ......................................................................................................... 6
6.8 Dual BIOS ....................................................................................................................... 6
6.9 Hardware Data Protection .............................................................................................. 6
6.10 Write Operation Status ................................................................................................... 7
6.10.1
6.10.2
6.10.3
6.10.4
DQ7: #Data Polling.........................................................................................................7
RY/#BY: Ready/#Busy ...................................................................................................7
DQ6: Toggle Bit ..............................................................................................................7
DQ5: Exceeded Timing Limits ........................................................................................8
6.11 Identification Input pin ID[3:0] ......................................................................................... 8
6.12 Register........................................................................................................................... 8
6.12.1 General Purpose Inputs Register ...................................................................................8
6.12.2 Block Locking Registers .................................................................................................8
6.12.3 Product Identification Registers ....................................................................................10
6.13 Table of Operating Modes ............................................................................................ 11
6.13.1 Operating Mode Selection - Programmer Mode ...........................................................11
6.13.2 Operating Mode Selection - FWH Mode.......................................................................11
6.14 Fwh Cycle Definition ..................................................................................................... 12
6.15 Embedded Programming Algorithm.............................................................................. 13
6.16 Embedded Erase Algorithm.......................................................................................... 14
6.17 Embedded #Data Polling Algorithm.............................................................................. 15
6.18 Embedded Toggle Bit Algorithm ................................................................................... 16
6.19 Software Product Identification and Boot Block Lockout Detection Acquisition Flow .. 17
7. DC CHARACTERISTICS .......................................................................................................... 18
7.1 Absolute Maximum Ratings .......................................................................................... 18
7.2 Programmer interface Mode DC Operating Characteristics......................................... 18
7.3 FWH interface Mode DC Operating Characteristics..................................................... 19
7.4 Power-up Timing........................................................................................................... 19
7.5 Capacitance .................................................................................................................. 19
Publication Release Date: Dec. 13, 2005
- 1 - Revision A5
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W39V080FA
6. FUNCTIONAL DESCRIPTION
6.1 Interface Mode Selection and Description
This device can operate in two interface modes, one is Programmer interface mode, and the other is
FWH interface mode. The IC pin of the device provides the control between these two interface
modes. These interface modes need to be configured before power up or return from #RESET. When
IC pin is set to high state, the device will be in the Programmer mode; while the IC pin is set to low state
(or leaved no connection), it will be in the FWH mode. In Programmer mode, this device just behaves
like traditional flash parts with 8 data lines. But the row and column address inputs are multiplexed. The
row address are mapped to the higher internal address A[19:11]. And the column address are mapped
to the lower internal address A[10:0]. For FWH mode, It complies with the FWH Interface Specification.
Through the FWH[3:0] and FWH4 to communicate with the system chipset .
6.2 Read (Write) Mode
In Programmer interface mode, the read (write) operation of the W39V080FA is controlled by #OE
(#WE). The #OE (#WE) is held low for the host to obtain (write) data from (to) the outputs (inputs).
#OE is the output control and is used to gate data from the output pins. The data bus is in high
impedance state when #OE is high. As for in the FWH interface mode, the read or write is determined
by the "bit 0 & bit 1 of START CYCLE ". Refer to the FWH cycle definition and timing waveforms for
further details.
6.3 Reset Operation
The #RESET input pin can be used in some application. When #RESET pin is at high state, the
device is in normal operation mode. When #RESET pin is at low state, it will halt the device and all
outputs will be at high impedance state. As the high state re-asserted to the #RESET pin, the device
will return to read or standby mode, it depends on the control signals.
6.4 Accelerated Program Operation
The device provides accelerated program operations through the ACC function. This function is
primarily intended to allow a faster manufacturing throughput in the factory.
6.5 Boot Block Operation and Hardware Protection at Initial- #TBL & #WP
There is a hardware method to protect the top boot block and other sectors. Before power on
programmer, tie the #TBL pin to low state and then the top boot block will not be programmed/erased. If
#WP pin is tied to low state before power on, the other sectors will not be programmed/erased.
In order to detect whether the boot block feature is set on or not, users can perform software command
sequence: enter the product identification mode (see Command Codes for Identification/Boot Block
Lockout Detection for specific code), and then read from address FFFF2(hex). You can check the
DQ2/DQ3 at the address FFFF2 to see whether the #TBL/#WP pin is in low or high state. If the DQ2 is
“0”, it means the #TBL pin is tied to high state. In such condition, whether boot block can be
programmed/erased or not will depend on software setting. On the other hand, if the DQ2 is “1”, it
means the #TBL pin is tied to low state, then boot block is locked no matter how the software is set.
Like the DQ2, the DQ3 inversely mirrors the #WP state. If the DQ3 is “0”, it means the #WP pin is in
high state, then all the sectors except the boot block can be programmed/erased. On the other hand, if
the DQ3 is “1”, then all the sectors except the boot block are programmed/erased inhibited.
To return to normal operation, perform a three-byte command sequence (or an alternate single-byte
command) to exit the identification mode. For the specific code, see Command Codes for
Identification/Boot Block Lockout Detection.
Publication Release Date: Dec. 13, 2005
- 5 - Revision A5
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| Information | Total 30 Pages | |
| Link URL | [ Copy URL to Clipboard ] | |
| Download | [ W39V080FA.PDF Datasheet ] | |
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