7 0 6 0 A MAXTOR NO MORE PRODUCED Native| Translation ------+-----+-----+----- Form 3.5"/SLIMLINE Cylinders 1516| 467| 1024| 925 Capacity form/unform 62/ 77 MB Heads 2| 16| 7| 8 Seek time / track 15.0/ 3.0 ms Sector/track | 17| 17| 17 Controller IDE / AT Precompensation Cache/Buffer 64 KB Landing Zone Data transfer rate 1.500 MB/S int Bytes/Sector 512 6.000 MB/S ext Recording method RLL 1/7 operating | non-operating -------------+-------------- Supply voltage 5/12 V Temperature *C 5 50 | -40 Power: sleep W Humidity % | standby W Altitude km -0.061 3.048| idle W Shock g | 70 seek W Rotation RPM 3524 read/write W Acoustic dBA 35 spin-up W ECC Bit 32,56 MTBF h 150000 Warranty Month Lift/Lock/Park YES Certificates CSA,FCC,TUV,UL1950,VDE ********************************************************************** L A Y O U T ********************************************************************** MAXTOR 7120A/7060A PRODUCT MANUAL PART #1194 REVISION B +---------------------------------------------------------+ | +-+-+-+-+ | | +++++++++ | | J11-+ |J14+--J15 |XX | J13---+ +-+ |XX | +-+J16|XX | +-+J17|XX | +-+J18|XX J3 | +-+J19|XX | +-+J20|XX | |XX | |XX | |X1 | | | |X1 J2 | |XX +---------------------------------------------------------+ ********************************************************************** J U M P E R S ********************************************************************** MAXTOR 7120A/7060A PRODUCT MANUAL PART #1194 REVISION B Jumper setting ============== PCBA 48 --------- Note: Jumpers J14, J15, J16, and J19 are reserved. Abnormal operation may occur if altered. PCBA 38 --------- Note: Jumpers J14 and J15 are reserved. Abnormal operation may occur if altered. J11 PCBA 38 I/O Channel Ready -------------------------------- CLOSED Option Enabled OPEN Option Disabled (default) J13/J14 PCBA 38 Power-up Configuration ------------------------------------------ J14 J13 Cyl Hds Sec MB --------------------------------------------------------- 7120A CLOSED CLOSED 936 16 17 130.3 (default) OPEN OPEN 1024 14 17 124.8 CLOSED OPEN 762 8 39 121.7 OPEN CLOSED 900 15 17 117.5 7060A CLOSED CLOSED 467 16 17 65.0 (default) OPEN OPEN 1024 7 17 62.4 CLOSED OPEN 762 4 39 60.9 OPEN CLOSED 925 8 17 64.4 J17 PCBA 38 Drive Modell Number ---------------------------------- CLOSED Modell Number 7120A OPEN Modell Number 7060A J18 PCBA 38 ECC Bytes ------------------------ CLOSED 4 Bytes (default) OEPN 7 Bytes J19/J20 PCBA 38 Master/Slave ------------------------------- J19 CLOSED Only drive in single drive system (Default) J20 CLOSED J19 OPEN Master in dual drive system J20 CLOSED J19 CLOSED Slave in dual drive system J20 OPEN A master/slave relationchip exists between the two drives: drive 0 is the master, and drive 1 the slave. J11 PCBA 48 I/O Channel Ready -------------------------------- CLOSED Option Enabled OPEN Option Disabled (default) J13 PCBA 48 Power-up Configuration -------------------------------------- 7120A J13 Cyl Hds Sec MB ------------------------------------------------- CLOSED 936 16 17 130.3 (default) OPEN 1024 14 17 124.8 7060A CLOSED 925 8 17 64.4 (default) OPEN 1024 7 17 62.4 J17 PCBA 48 Drive Modell Number ---------------------------------- CLOSED Modell Number 7120A OPEN Modell Number 7060A J18 PCBA 48 ECC Bytes ------------------------ CLOSED 4 Bytes (default) OEPN 7 Bytes J20 PCBA 48 Master/Slave --------------------------- J20 CLOSED Only drive in single drive system (Default) J20 CLOSED Master in dual drive system J20 OPEN Slave in dual drive system A master/slave relationchip exists between the two drives: drive 0 is the master, and drive 1 the slave. J2 DC Power and pin connector assignments ------------------------------------------- +------------+ pin 1 +12 VDC | 1 2 3 4 | pin 2 +12 V Ground Return +------------+ pin 3 + 5 V Ground Return pin 4 + 5 VDC ********************************************************************** I N S T A L L ********************************************************************** MAXTOR 7120A/7060A PRODUCT MANUAL PART #1194 REVISION B Notes of Installation ===================== Automatic Headpark and Lock Operation ------------------------------------- Immediately following power-down, dynamic braking of the spinning disks delays momentarily and lets the heads move to an inner mechanical stop. A small fixed magnet holds the heads in place as the disk spin down. The heads are released only when power is again applied. Dual Drive Support ------------------ Two drives may be accessed via a common interface cable, using the same range of I/O addresses. A jumper on J20 designates the drive as a master. When J20 is not jumpered, the drive is a slave. Whether a drive is a master or slave determines the function of pin 28, DASP-, for that drive. DASP- (Drive Active Slave Present) is a time-multi- plexed signal that serves as an input on the master and an output on the slave. At power on, the master allows a time period for the slave to set the DASP- line. If the slave fails to do so, the master assumes it is the only drive in the system. After DASP- has been set, or after the master's input period has expired, the DASP- line is used as a drive active line and is set when the host accesses either drive. All Task File registers are written in parallel to both drives. The interface processor on each drive decides whether a command written to it should be executed; this depends on the type of command and which drive is selected. Only the drive selected executes the command and activates the data bus in response to host I/O reads; the drive not selected remains inactive. A master/slave relationship exists between the two drives: drive 0 is the master, and drive 1, the slave. In response to the Execute Diagnostics command, both drives execute diagnostics. The slave re- ports its status with its own, and then reports to the host. Drive Type ---------- 7000 Series drives incorporate a dynamic configuration algorithm. Within limits of the drive's capacity, the algorithm lets the host configure CMOS to any DOS Legal ATA translation. Cooling ------- The cabinet cooling must be designed by the customer so that the ambient temperatures measured 0,5" above the PCBA and top cover surfaces do not exceed temperature specifications listed in this describtion. Power Connector --------------- Power is applied through J2, a 4-pin connector (Molex P/N 1-480424-0; AMP P/N 1-480424-0). Never force poloarited connectors into place. ********************************************************************** F E A T U R E S ********************************************************************** MAXTOR 7120A/7060A PRODUCT MANUAL PART #1194 REVISION B Introduction ------------ Maxtor 7000 Series AT disk drives are 1" high, 3.5" random access storage devices which incorporate an on-board AT controller. Maxtor engineers have applied recent advances in hard drive technology to the design and manufacture of these drives. Reduced size and in- creased durability make them especially well-suited to notebook, laptop, and desktop applications. Defect and Error Management --------------------------- 7000 Series drives employ a "push-down" defect management routine. The drive organizes physical sectors into a logical string. If a defective sector is found, it is skipped, and the entire logical string is shifted down by one. Reserved sectors beyond the end of the logical string prevent any loss of capacity or performance. Any defective sectors are recorded while the drive is still at the factory and the resulting list loads into SRAM during power on. In the event of a data error, Error Correction Code (ECC) allow data recovery even when several bits of the original data have been lost. SRAM Buffer ----------- The 3 major areas of SRAM (Static Random Access Memory) include: defect management, a read buffer, and a write buffer. Drive defects load into SRAM from the reserved history cylinder and are referenced for every read, write, and seek operation. Each defect causes all remaining logical data sectors to be shifted down by one. Since the defect list is in SRAM, the drive can quickly determine the logical offset to locate a desired sector. The large read buffer and smaller write buffer optimize data through- put for both fast and slow host systems. Data Reliability ---------------- Reliability specifications require a proper implementation of the host/drive interface, including correct interface timings, power supply voltages, environmentsl conditions, and data handling circuits in the host system. General error rate computations exclude any errors caused by factory-located defects or host system failures. Specified error rates are based on the assumptions that 1. the drive operates within DC power requirements, and 2. any errors caused by media defects or host system failures are excluded from error rate computations. Seek Time --------- | 7000 | ----------------------------------+--------+ Track-to-Track msec. typ. | 3 | 1/3 Stroke msec. | 16 | Average msec. typ. | 15 | Average msec. max. | 27 | Latency msec. avg. | 8.5 | ----------------------------------+--------+ Reliability and Maintenance --------------------------- MTBF 150,000 POH (power-on-hours) AFR (Annualized Failure Rate) 1.7% Component design life 5 years minimum Magnetic Field -------------- The externally induced magnetic flux density may not exceed 6 gauss as measured at the disk surface. Basic Installation Steps ------------------------ Install a 40-pin ribbon cable connector. The striped edge of this cable represents pin 1 and must be oriented towards pin 1 at the drive connector and at the host connector. Install a DC power connector. Secure the drive in a drive bay with 6-32 x 1/4" screws. If the AT BIOS supports a user-programmable drive type, select and programm the drive parameters that will give the highest available capacity. If the AT VIOS does not supports user-programmable drive types, choose one of the drive's translation paaarameters that matches a standard drive type in BIOS. The drive is now ready for partioning and high-level formatting with any operating system. ********************************************************************** G E N E R A L ********************************************************************** MAXTOR IDE INSTALLATION INSTALLATION PROCEDURE FOR AN IDE DRIVE --------------------------------------- 1. Install a 40 pin Data Cable ensuring that pin 1, which can be identified by the striped edge of the cable, is closest to the power connector on the drive. 2. Install a DC power cable to the back of the drive. 3. Verify the jumper configurations for Master/Slave operation (Note: Master will be the bootable drive. The slave will not be bootable.) Also make sure the existing C: drive is jumped to be the Master in a two drive system, not the only drive in the system. 4. Apply power to the computer. 4a. When memory test is complete go into your system's Standard CMOS set-up. (Note: There are various ways to get into CMOS set-up, please refer to system's manual for instructions.) 4b. If your system's BIOS supports a user programmable drive type, program the BIOS with the default parameters of your drive. If your system does not support a user programmable drive type choose parameters that closely match but do not exceed the drives MegaByte capacity. Escape from set-up then choose write to CMOS and exit. 5. Boot from a DOS diskette that has FDISK.EXE and FORMAT.COM on it. At the A> prompt type in FDISK. At the menu options select option 1 to create a DOS partition. Another menu will appear and from those options choose 1 to create a Primary DOS partition. Select yes to make 1 large partition and it will automatically become active. Then escape from FDISK. 6. At the A> prompt type in FORMAT C:/S This does a high-level format on the drive and transfers the system files in order for the drive to be bootable. (Note: IDE drives are low-level formatted from the manufacturer and only need a high-level format). To configure the drive as a slave drive repeat steps 1-4 and proceed with steps 5a. and 6a. as follows: 5a. At the C> prompt type in FDISK. When the menu options appear select option 5 to switch to the second drive. Enter fixed disk drive number 2. Then choose option 1 to create a DOS partition, then select option 1 again to create a Primary DOS partition or option 2 to create an Extended DOS partition. (Note: C and D drives will always be the Primary partitions but only the Primary partition on C: will have a status of active). 6a. Proceed with a high-level format on the drive by typing FORMAT D: (Note: Make sure the correct drive letter has been selected for format). 7. The drive is now bootable. As a test remove the DOS diskette from A and press reset to reboot the computer, a C> should be displayed, the drive is now ready for operation.